· BNL 34518 Seventeenth Edition Informal Report C-AD Experime P. Lo Presti Y. Makdisi G. Greene...

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BNL 34518 Seventeenth Edition

Informal Report

C-AD Experime

P. Lo Presti Y. Makdisi G. Greene

March 2004

Collider-Accelerator Department Experimental Support Facilities Division

Brookhaven Na Laboratory Brookhaven Sc es Upton, New Y 11973-5000

United States of America

Under Contract No. DE-A 02-98CH10886 with the United States Dep rtment of Energy

This publication ca llowing web site:

nts – 2000 - 2004

and

tionalience Associatork

Ca

n be located at the fohttp://server.c-ad.bnl.gov/esfd/eps.htm

DISCLAIMER This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor any agency thereof, nor any of their employees, nor any of their contractors, subcontractors, or their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness or usefulness of any information, apparatus, product, or Progress disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, Progress or service by trade name, trademark, manufacturer, or otherwise, does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or any agency, contractor, or subcontractor thereof. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or any agency, contractor or subcontractor thereof.

FY 2000 AGS Sched FY 2001 C-A Schedu FY 2002 C-A Schedu FY 2003 C-A Schedu FY 2004 C-A Schedu C-A Complex FY200 C-A Complex FY200 C-A Complex FY200 C-A Complex FY200 C-A Complex FY200 AGS Experimental A AGS Experimental A AGS Experimental A AGS Experimental A AGS Experimental A Listing of Experimen Two-Page Summarie Listing of Publication Listing of Experimen

C-AD Experiments – 2000 - 2004

Table of Contents

Page:

ule as Run I

le as Run II

le as Run III

le as Run IV

le As Run/In Progress V

0 VI

1 VII

2 VIII

3 IX

4 X

rea FY2000 Physics Program XI

rea FY2001 Physics Program XII

rea FY2002 Physics Program XIII

rea FY2003 Physics Program XIV

rea FY2004 Physics Program XV

ts XVI

s of Experiment 1

s of C-AD Experiments 57

ters in Alphabetical Order 130

VI

VII

VIII

IX

X

XI

XII

XIII

XIV

XV

LIST OF E PERIMENTSX

xp. Collaboration/Spokesperson Page E BRAHMS Broad Range Hadron Magnetic Spectrometers 1

P2PP Proton-Proton Elastic Scattering at RHIC 3

BNL/U. Bucharest/Jagellonian U/Johns Hopkins U/NYU/Niels Bohr Inst., U. Copenhagen/Texas A&M/Fysisk Inst/U. Kansas/U. Olso

Videbaek, Gaardhoje

P BNL/Ecole Polytechnique/Inst. of Nuclear Studies, Warsaw/Inst. Nuclear

Physics, Cracow/Inst. Theor. & Exp. Physcis (Moscow)/ Moscow Eng. Phys. Inst/SUNY Stony Brook/U. Texas/

Guryn PHENIX Pioneering High Energy Nuclear Interaction EXperiment 5 Collaboration (http://www.phenix.bnl.gov/phenix/WWW/html/phenix_inst.html) PHOBOS 7

ANL/BNL/INP, Krakow/MIT/Natl. Central U, Taiwan/U. Rochester/ U. Illinois/

Zajc

PHOBOS U. Md Busza STAR Solenoid Tracker At RHIC 9 Collaboration (http://www.star.bnl.gov/STAR/spb/institute.html)

Harris NSRL NASA Space Radiation Laboratory 11

e evel o 0.35 P M /H idelber /Illinoi /LBL/

rts

hington/JINR/Kent/PNPI/Rudjer

osko

926 K0PI0, 17 lity/TRIUMF/Yale/U.British Columbia/VPI

+

Boškovič Inst/U.Colo/Geo.Washington U/ U.Karlsruhe/ Kent/ SPNP/U.Regina/Valparaiso

Nefkens

Vazquez 821 A New Precision Measurement of the Muon g-2 at th L f P 13

airfield e g s Boston/BNL/Budker Institute/Cornell/Finnesota/KEK/Tokyo/Yale Max Planck Inst/M

Morse, Robe 913 Baryon Spectroscopy with the Crystal Ball 15

A ne Christian/UCLA/G.WasB vic Inst.

bille Sadler, Tippens

o 0Measurement of K L→ π ν⎯ν BNL/INR- Moscow/Kyoto/New Mexico/Thomas Jefferson National Accelerator Faci Bryman, Littenberg, Zeller

927 Measurement of the K e3 Decay Rate and Spectrum 19

BNL/UCLA/JINR/Abilene Christian/ANL/Arizona State/Rudjr

XVI

Exp. Collaboration/Spokesperson Page

30 High-Resolution γ Spectroscopy of Hypernuclei Using Large-Acceptance 21 Germanium Detector Tokyo/Osaka/KEK/Tohoku/BNL/North Carolina A&T/Hampton Tamura

31 Study of the ∆ I=½ Rule in the Weak Decay of S-Shell Hypernuclei 23 Ariz/BNL/UCLA/Carnegie-Mellon/CEBAF/Colo/G. Wash/Houston/ Kentucky/LANL/La. Tech. /Maryland/Minnesota/NCA&T/R. Boskovic Inst/ Tex-Austin/Tohoku U/U.Zagreb Dehnhard, Hungerford, Zeps

40 MECO, Search for µ- N → e-N with Sensitivity Below 10-16 25 Boston/BNL/UC-Irvine/Houston/Massachusetts/INR/NYU/Osaka/Penn/ Syracuse/Wm. & Mary Molzon

47 NASA-Radiobiology 27 BNL/Case Western/Columbia/Colo/Duke/LBNL/NASA Johnson Space Ctr/Natl/ Space biology Res. Inst/Loma Linda/NYU Med/U. Tex.Med/T. Jeff.U/LANL/ Wash U/Natl. Inst. Radiological Sciencs, Japan/U.di Bologna, Italy Vazquez

949 An Experiment to Measure the Branching Ratio B(K+→π+ ν⎯ν) 29 BNL /KEK/Osaka U/Triumf/U. Alberta Bryman, Kettell, Sugimoto 951 An R&D Program for Targetry and Capture at a Muon Collider 31 ANL/BNL/CERN/Fermi/LBNL/ORNL/Princeton U/ SUNY Stony Brook McDonald 952 Improved Limit on Muon Neutrino Mass from Pion Decay in Flight 33 Boston U/BNL/NYU/Newman Lab,Cornell U/Physik Inst. der U.Heidelberg/ U. Ill/U. Mn/Yale U Cushman 953 Neutral Hyperon Spectroscopy with the Crystal Ball 35 Kent/Abilene Christian U/ANL/Az U/UCLA/Colo U/GWU/U. Karlsruhe/ U. Md/PNPI/Rudjer Boskovic Inst/U. Uppsala, Sweden/Valparaiso Manley, Nefkens, Spinka 955 Proton Radiography at the AGS in the U Line 37 Bechtal Nevada/BNL/LANL/LLNL Hartouni, Morris 956 Spallation Neutron Studies at the AGS 39 ANL/BNL/FZJ/JAERI/LANL/ORNL/PSI Bauer, Hastings, Watanabe

9 9 9 9

XVII

Exp. Collaboration/Spokesperson Page 957 NASA Radiobiology 41

BNL/Case Western/Columbia/Colo/Duke/LBNL/NASA Johnson Space Ctr/ Natl. Space biology Res. Inst/Loma Linda/NYU Med/U. Tex.Med/T. Jeff.U/ LANL/Wash U/Natl. Inst. Radiological Sciencs, Japan/U.di Bologna,Italy

Vazquez 958 Pion Charge-Exchange Cross-Sections at Low Energies 43

Abilene Christian/ANL/Ariz/UCLA/Colo/GWU/Karlsruhe/Kent/U.Md/PNPI/U. Regina/Rudjer/Valapraiso/Uppsala

Comfort, Sadler 960 NASA Radiobiology 45

BNL/Case Western/Columbia/Colo/Duke/LBNL/NASA Johnson Space Ctr/ Natl. Space biology Res. Inst/Loma Linda/NYU Med/U. Tex.Med/T. Jeff.U/ LANL/Wash U/Natl. Inst. Radiological Sciencs, Japan/U.di Bologna,Italy

Vazquez 961 Search for Double-Λ Hypernuclei by Sequential Pionic Decyas 47 BNL/Carnegie Mellon/Freiburg/Hampton/KEK/INR/Kyoto/Manitoba/ New Mexico/Osaka/Temple/Tokyo/Pusan Natl/TRIUMF/Osaka Electro- Communication Fukuda,Rusek, Chrien 962 Precision Measurement of the Muon (g-2) Value 49 Boston U/Yale Roberts 963 Proton Radiography at the AGS in the U-Line 51 Bechtel/BNL/General Atomics/LANL Morris 964 Systematic Study of Double Strangeness System 53

Gifu U/Kyoto U/Tohoku U Imai, Nakazawa, Tamura

966 NASA Radiobiology 55

BNL/Case Western/Columbia/Colo/Duke/LBNL/NASA Johnson Space Ctr/ Natl. Space biology Res. Inst/Loma Linda/NYU Med/U. Tex.Med/T. Jeff.U/

LANL/Wash U/Natl. Inst. Radiological Sciencs, Japan/U.di Bologna, Italy Vazquez

Publications 57 C-AD Experimenters 131

XVIII

Summary Of

Experiments

Two of the outstanding questions of fundamental science

are:

y universe?

And….

ns will be addressed by the RHIC detectors

PHOBOS

STAR

What happened during the first few moments of the earl

How does the proton get its spin?

These questio

BRAHMS PHENIX

PP2PP RHIC STAR

1

XPERIMENT BRAHMS ome Page http://www4.rcf.bnl.gov/brahms/WWW/brahms.html

EH

2

Beam: 2:00 o’clock

Status: In Progress

• Brookhaven National Laboratory - D. Beavis, C. Chasman, R. Debbe, J. H. Lee, E. McBreen, K.

Olchanski, J. W. Olness, R. Scheetz, F. Videbaek • Fysisk Institutt, U. Bergen (Norway) – J. I. Jørdre, D. Roehrich • Jagellonian University – K. Grotowski, R. Karabowicz, T. Kozik, Z. Majka, Z. Sosin, P. Staszel • Johns Hopkins University - E. J. Kim, Y. K. Lee • New York University – B. Budick • Niels Bohr Inst. for Astronomy, Physics and Geophysics University – I. G. Bearden, J. P. Bondorf,

H. Boggild, P. Christiansen, J. J. Gaardhoje, O. Hansen, A. Holm, C. Holm, C. E. Jorgensen, H. Heiselberg, B. Svane Nielsen

• Texas A&M University – J. Cibor, K. Hagel, M. Murray, J. Natowitz, R. Wada • University Bucharest – D. Argintaru, C. Besliu, F. Constantin, D. Felea, A. Jipa, R. Zaharia,

I. S. Zgura • University of Kansas – H. Ito, J. Norris, S. J. Sanders • University of Oslo – E. Enger, T. M. Larsen, S. Lindal, G. Lovhoiden, M. Mikelsen, B. M. Samset, T. S.

Tveter

BRAHMS, the Broad RAnge Hadron Magnetic Spectrometers experiment at RHIC is designed to measure charged hadrons over a wide range of rapidity and transverse momentum to study the reaction mechanisms of the relativistic heavy ion reactions at RHIC and the properties of the highly excited nuclear matter formed in these reaction.

EXPERIMENT – BRAHMS

SPOKESPERSON: F. VIDEBAEK, J. J. GAARDHOJE

E

3

ome Page http://www.rhic.bnl.gov/pp2ppXPERIMENT PP2PP

H

4

003

Laboratory – S. Bültmann, I-H. Chiang, R. Chrien, A. Drees, R. Gill, W. Guryn,

(Poland) – J. Chwastowski, B. Pawlik

Institute for Nuclear Studies (Poland) – A. Sandacz

Moscow Engineering Physics Institute - A. A. Bogdanov, S. B. Nurushev, M. F. Runtzo, M. N. Strikhanov

hysics (Russian) – I. G. Alexeyev, V. P. Kanavets, B. V. Morozov, D. N. Svirida

k – M. Rijssenbeek, C. Tang, S. Yeung

K. De, N. Guler

This was an experiment to study proton-proton (pp) elastic scattering experiments at RHIC. Using both polarized and unpolarized beams, the experiment studied pp elastic scattering from √s = 60 GeV to √s = 200 GeV in two kinematical regions.

ock Beam: 2:00 o’cl

ted FY 2 Status: Com

ple

EXPERIMENT – PP2PP

SPOKESPERSON: W. GURYN

• Brookhaven National D. Lynn, P. Pile, A. Rusek, M.Sakitt, S. Tepikian • Ecole Polytechnique (France) – M. Haguenauer

Institute of Nuclear Physics• • • • Inst. Theor. & Exper. P • State University of New York at Stony Broo • University of Texas –

5

Experiment PHENIX Home Page http://www.phenix.bnl.gov

A RHIC heavy ion collision occurs in PHENIX

Particles from the collision travel through the PHENIX detectors

Very fast electronics decide whether or not to record a collision

The data is processed, or reconstructed, into particle type, momentum, energy, charge, etc.

6

Status: In Progress

The PHENIX collaboration


EXPERIMENT – PHENIX

SPERSON: W. A. ZAJC SPOKE

consists of over 430 physicists and engineers from 51 participating institutions in 13

t personnel also work on PHENIX. • A • Joint Institute for Nuclear Research • RIKEN • A • Kangnung National University • Seoul National University • B • KEK, Institute for High Energy Physics • State University of New York at Stony Brook • B • Korea University • SUBATECH, Ecole des Mines • B • Kurchatov Institute • Tokyo Institute of Technology • C • Kyoto University • University of Alabama • C • Lawrence Livermore National Laboratory • University of California - Riverside • Columbia Universit • LLR-Palaiseau, Ecole Polytechnique • University of Muenster • Cyclotron Application Laboratory • Los Alamos National Laboratory • University of New Mexico • DAPNIA • LPC-Clermont, U. de Clermont-Ferrand • University of Sao Paulo • Florida State University • Lund University • University of Tennessee • Georgia ong Ji University • University of Tokyo • H agasaki Institute of Applied Science • University of Tsukuba • I ew Mexico State University • Vanderbilt University • I ak Ridge National Laboratory • Waseda University • I NPI: St. Petersburg Nuclear Physics Inst. • Weizmann Institute • Yonsei University

HENIX, P

countries. A comparable number of supporbilene Christian University cademia Sinica anaras Hindu University habha Atomic Research Centre rookhaven National Laboratory enter for Nuclear Study, Tokyo hina Institute of Atomic Energy y, Nevis Lab.

State University • Myiroshima University • Nnstitute of High Energy Physics • Nowa State University and Ames Lab. • OPN Orsay • P

P ioneering High Energy Nuclear Interaction EXperiment, is a very large detector system, which is esigned to detect, identify, and measure the momentum of each of the many different kinds of particles roduced at RHIC. PHENIX comprises three electromagnets, four instrumented spectrometers or arms, and

, large events, high occupancy) to collisions (high rate, small events, low occupancy).

XPERIMENT PHOBOS m.bnl.gov/

dpinner detector systems. PHENIX looks deep into the source of RHIC physics to learn about the earliest times of quark gluon plasma formation in heavy-ion collisions, and uncover the secrets of the spin structure of the proton in polarized proton collisions. The design of the detectors and readout has been optimized across a very broad dynamic range from A-A collisions (low rateThe result of this optimization is a detector with the ability to measure both large cross section hadronic phenomena and rare processes. EHome Page http://phobos-srv.ch

→ → p - p

Electronics rack

magnet - with top half removed

silicon pad detectors

time of flight

1% solid angle, near y=0, two arm multiparticle spectrometer

reshold

K-

10,000 element 4π detectorη

ook at ve)

atiariables

Pt distributions

very low Pt th

π / K / p / φ ratios

particle correlations (HBT)

mass and width Kφ → +

event by event - N, dN/d , d2N/dηdφ

unbiased global l ry large number of collisions (

sensitive to large fluctu

~109

ons in global v


Status: In Progress

7

EXPERIMENT – PHOBOS

SPOKESPERSON: W. BUSZA

8

The PHOBOS collaboration consists of over 100 physicists and engineers. A comparable number of support

ersonnel also work on PHOBOS. p • Argonne National Laboratory

• Brookhaven National Laboratory

• Institute of Nucl. Phys. – Krakow, Poland

National Central University – Taiwan

University of Rochester

• University of Illinois – Chicago

• University of Maryland

PHOBOS consists of many silicon detectors surrounding the interacton region. With these detectors physicists will be able to count the total number of produced particles and study the angular distributions of all the products. With this array they will be on the look out for unusual events, fluctuations in the number of particles and angular distribution. Physicists know from other branches of physics that a characteristic for phase transitions are fluctuations in physical observables. In order to obtain more detailed information about these events the PHOBOS detector has two high quality magnetic spectrometers which study, in detail, 1% of the produce particles. The PHOBOS detector is able to measure quantities such as the temperature, size, and density of the fireball produced in the heavy ion collision. It studies the ratios of the various particles produced. With this information it should be possible to both detect and study a phase transition that might occur between Quark-Gluon Plasma (QGP) and ordinary nuclear matter.

XPERIMENT STAR Home Page http://www.star.bn

• Massachusetts Inst. of Technology

•

•

El.gov

Beam: 6:00 o’clock Status: In Progress

9

EXPERIMENT – STAR

SPOKESPERSON: T. HALLMAN

The STAR collaboration consists of hundreds of physicists and engineers.

TAR is composed of 50 institutions from 12 countries, with a total of 503 collS aborators

California Institute of Technology

Institute of Modern Physics - Lanzhou Institute of Particle Physics – Wuhan

baneswar

Jammu University

gy Physics - Dubna • Lawrence Berkeley Laboratory

• Particle Physics Laboratory - Dubna • Pennsylvania State University • Purdue University • Rice University • Shanghai Inst. of Nuclear Research • SUBATECH, Nantes

• Tsinghua University • University of Bern

• University of Science & Technology of China • University of Texas - Austin • University of Washington • University of Zagreb • Valparaiso University • Variable Energy Cyclotron Center - Calcutta • Warsaw University of Technology • Wayne State University • Yale University

The S

• Argonne National Laboratory • Brookhaven National Laboratory

• Kent State University • Laboratory of High Ener

• Texas A&M University

• • Carnegie Mellon University • City College of New York • Creighton University • Indian Institute of Tech. - Bombay • Indiana University • Institute of High Energy Physics – Beijing • Institute of High Energy Physics – Protvino

Institute of Fisica da Universidade de Sao Paulo

• Massachusetts Inst. of Technology • Max-Planck-Institute fuer Physics • Michigan State University • Moscow Engineering Physics Institute • NIKHEF • Nuclear Physicis Institute, Czech Republic • Ohio State University • Panjab University

• University of Birmingham • University of California – Berkeley • University of California – Davis • University of California – Los Angeles • University of Frankfurt • University of Rajasthan

• • • • Institute of Physics - Bhu• Institute de Recherches Subatomiques (IReS) de Strasbourg

•

olenoidal Tracker At RHIC (STAR) experiment is designed to search for signatures of quark-gluon plasma (QGP) formation and to

inve s correlation odensity nuclear matter. A second focus of the STAR experimental program is to study th spin-dependent parton distributions of the proton, using beams of transverse and longitudinally polarized protons. A specific goal is measure the polarization of gluons in the proton, using the QCD "Compton" Progress (qg → qγ) as a probe. The STAR detection system consists of a Time Projection Chamber (TPC) and a Silicon Vertex Tracker (SVT) inside a solenoidal magnet, enabling tracking, momentum analysis, particle identification by dE/dx, and location of primary and secondary vertices with full azimuthal coverage (∆Φ = 2π, |η| < 1). A Central Trigger Barrel (CTB) of scintilllators surrounding the TPC, and Zero Degree Calorimeters (ZDCs) located at ± 18 meters from the interaction point provide a collision geometry trigger, and the ability to selectively veto events according to the number of spectator neutrons going forward. A set of Beam-Beam Counters (BBCs) designed to detect interactions by measuring the forward going charged particle multiplicity are supported on the east and west faces of the STAR magnet. Forward Time Projection Chambers on either side of the interaction vertex provide additional tracking coverage in the acceptance ∆Φ = 2π, 2.5 < |η| < 3.8. A Barrel Electromagnetic Calorimeter (BEMC) (∆φ = 2π, |η| < 1) as well as an Endcap Electromagnetic Calorimeter (EEMC) ((∆Φ= 2π, 1 < η < 2) on one end of the STAR detector will be used to trigger on high pt π°s and to measure neutral transverse energy, direct photon production, vector mesons, and jets. All the BEMC modules have been installed. Both halves of the endcap electromagnetic calorimeter are installed providing full tower coverage in the endcap acceptance for RHIC run V. Additional detector components that will be added in 2004 include a Silicon Strip Detector (SSD) and a Photon Multiplicity Detector (PMD). The SSD will comprise a fourth layer of silicon tracking outside the existing three layers of silicon drift detectors which are part of the STAR SVT. It will be used to improve tracking efficiency and background rejection for secondary vertices from hyperon decays and to improve the standalone tracking capability of the silicon vertex tracker for low momentum particles. The Photon Multiplicity Detector is a fine-grained array of detector cells based on gaseous shower counting. It will be used to detect photon showers in the forward acceptance of STAR. NASA SPACE RADIATION LABORATORY Home Page http://server.c-ad.bnl.gov/esfd/nsrl

stigate the behavior of strongly interacting matter at high density. The experimental emphasis in the STAR heavy ion program if many obse netrating probe of high rvables on an event-by-event basis, and the use of hard scattering of partons as a pe

e to

10

Target Bench in the NSRL Target Room

simetry ion-chamber, EG&G counter, target lift, 256-element ion-chamber, target lift and scintillation counters.

Beam: Booster Status: Ongoing

Beam is incident from the right. In order, from right to left, the instruments on the bench are:

An ion-chamber, binary-filter, ion-chamber, do

11

12

• Brookhaven National Laboratory

• Colorado State University

• Columbia University

• Duke University

• HNRCA

• Lawrence Berkeley Naltinal Laboratory

• Loma Linda University

• Massachusetts General Hospital

• Massachusetts Institute of Technology

• MRC Radiation & Genome Stability Unit, UK

• NASA, Johnson Space Center

• NASA, Langley Research Center

• NIRS/HIMAC

• North Carolina A&T

• Oregon Health and Science University

• Promega Corporation

• Scripps Research Institute

• Southampton College

• SRI International

• Stanford Research Institute

• State University of New York at Stony Brook

• Texas A&M University

• Thomas Jefferson University

• University “Federico II”, Napoli, Italy

• University of Maryland

• University of Pennsylvania

• University of Rome

• University of Texas

• Washington University

A series of radiobiological and physics experiments are performed using the NASA Space Radiation

aboratory. These experiments are part of the NSRL commissioning run sponsored by NASA’s Space Radiation Helath Program (SRHP) heavy ion radiobiology research program at BNL. During the run. Seven institutions fr otaling 33 users. More than 900 biological samples were e osed at the NSRL beam line. The full program was completed in 17 day

fall of 2003 a total of 27 proposals were approved for the NSRL-1 run. Twenty-One institutions om the United States and two from Italy were represented, totaling 37 users. More than 2000 biological m

ad ntact specimens, which required a complex

on and proton beams. A total of 24 proposals foreign countries (Japan and Italy) were represented,

exposed employing 286 hours of beam time (40 hours r ysics experiments). In addition, 6 hours

dosimetry.

Po

L

summer of 2003 a total of 12 proposals were approved to participate in the NSRL-0 om the United States and two from foreign countries (Italy and Japan) were represented, t

xps.

During thefrsa ples were exposed. This run was completed in 27 days. R iobilogical experiments employed cells, tissues, and icoordination and planning of their respective logistic support. During the summer of 2004, (NSRL-3) run was completed using irfrom twenty institutions from the United States and 2 fromtotaling 78 users. More than 800 biological samples werefo in vivo studies, 74.5 hours for in vitro studies and 66 hours for phwere used for beam development and, 93.5 hours for set-up and EX ERIMENT 821 H me P b l.govage http://www.g-2. n

NASA SPACE RADIATION LABORATORY (NSRL)

SPOKESPERSON: M. VAZQUEZ

Results from E821 on the anomalous magnetic moment of the positive and negative muons.

The relative accuracy on the average is 0.5 parts per million.

Beam: V1 Status: Completed FY 2001

Hours Approved/Charged: 2100/4427

13

14

• Boston University - R.M. Carey, I. Logashenko, J.P. Miller, B.L. Roberts • Brookhaven National Laboratory - J. Benante, H.N. Brown, G. Bunce, G.T. Danby, R. Larsen, Y. Y. Lee, W. Meng, J. Mi, W.M. Morse, C. Ozben, C. Pai, R. Sanders, Y. K. Semertzidis, L. Snydstrup, T. Tallerico, M. Tanaka, D. Warburton • Budker Institue for Nucl. Phys. - V.P. Druzhinin, G.V. Fedotovich, B.I. Khazin, N. Ryskulov, S.

Serednyakov, Yu.M. Shatunov, E. Solodov • Cornell University - Y. Orlov • Max Planck Institut fur Physik - U. Haeberlen • National Laboratory for High Energy Physics (KEK) - A.Yamamoto • Tokyo Institute of Technology - M. Iwasaki

University of Heidelberg – K.V.I. Groningen, K. Jungmann, D. von Walter, G. zu Putlitz • University of Illinois - P. Debevec, D.W. Hertzog • University of Minnesota - P. Cushman • Yale University – H. E. Ahn, M. Deile, H. Deng, S. . Dhawan, A. Disco, F. J. M. Farley, X. Fei, M. Grosse-Perdekamp, V. W. Hughes, D. Kawall, J. Pretz, S. I. Redin, E. P. Sichtermann, A. Steinmetz

The anomalous gyromagnetic ratio of the muon (g-2) was measured to 0.35 ppm or a factor of 20 times betterthan it was previously known. The predicted contribution to (g-2) from the first and second order W± and Z0

radiative corrections was predicted to be 1.3 ppm, so this experiment provided a direct test of the electroweakradiative corrections, and hence of the renormalizability of the Glashow-Weinberg-Salam theory. Since aµ issensitive to a wide range of non-standard model effects there is a window in which to search for new physics Wor muon substructure, super-symmetry and the existence of new gauge bosons are several possibilities. A 14 mdiameter superferric muon storage ring is now operational. Data collection began in FY 1997 and was completed in 2001. * deceased

•

K

EXPERIMENT 821– A NEW PRECISION MEASUREMENT OF THE MUON G-2

AT THE LEVEL OF 0.35 PPM

SPOKESPERSON: V. HUGHES*, W. M. MORSE, B. L. ROBERTS

15

XPERIMENT 913 /Crystalball/crystalball.html

EHome Page http://bmkn8.physics.ucla.edu

16

Beam: C6 Status: Completed FY 2002

Hours Charged/Approved: 795

• Abilene Christian University - R. Bagga, B. Draper, J. Huddleston, D. Isenhower, Z. Mulkey, M. Sadler • Argonne National Laboratory - T. Kasprzyk, H. Spinka • Arizona State University - J. Comfort, K. Craig, A. Ramirez • Brookhaven National Laboratory - T. Kycia*

George Washington University - W. J. Briscoe, A. Shafi

• Kent State University - D. M. Manley • Petersburg Nuclear Physics Institute-Gatchina - V. Abaev, V. Bek

I. Lopatin, A. Starostin

• Rudjer Boskovic Institute -I. Šlaus, I. Supek • Va • niversity of California-Los ngeles - M. Clajus, S. McDonald, A. Marusic, B.M.K. Nefkens, M. Pulver,

W. B. Tippens

University of Colorado - J. Patterson, J. Peterson

Universit at Karlsruhe - H. Staudenmaier

ctroscopy using the SLAC Crystal Ball detector m ons for neutral final states in π-p interactions

angular distributions of all the neutral final o m e purpose was to improve the mass, width, and neutral

an ces in this energy region. The Crystal Ball detector is a nearly 4π multi- reconstructing the invariant mass and, in conjunction

th the produced neutron. The Crystal Ball was located in ≤ 750 MeV/c.

decease

•

renev, S. Kruglov, A. Kulbardis,

lparaiso University - A. Gibson, D. Grosnick, D.D. Koetke, R. Manweiler, P. Nord, S. Stanislaus

U A

• •

ndreou • University of Regina - N. Knecht, G. Lolos, Z. Papa

EXPERIMENT 913 - BARYON SPECTROSCOPY WITH THE CRYSTAL BALL

SPOKESMAN: M. E. SADLER, H. SPINKA, W. B. TIPPENS

This was a comprehensive experimental program in baryon speto ake precision measurements of total and differential cross sectiusing pion beams in the momentum range 0.4 - 1.9 GeV/c. The states such as γn, π were measured si ultaneously. Th

r ching fractions for the N* resonanbphoton spectrometer, which is used to analyze events by

i the measured beam momentum, the missing mass ofwthe C6 beam line during this phase of the experiment. The beam momentum was limited to * d

17

XPERIMENT 926 EHome Page http://pubweb.bnl.gov/people/e926/

Layout of the →πoLK o νν experiment

18

Beam: B5 Status: 2005 Construction Start

Hours Approved /Charged: 8000/272

• Arizona State University – J. Comfort • Brookhaven National Laboratory - I-H. Chiang, A. Etkin, J. W. Glenn, D. Jaffe, D. Lazarus, K. Li, L. Littenberg, G.

Redlinger, C. Scarlett, M. Sivertz, R. Strand • Institute for High Energy Physics-Protvino – G. Britvich, V. Burtovoy, S. Chemichenko, L. Landsberg, A. Lednev,

V. Obraztsov, R. Rogalev, V. Semenov, M. Shapkin, I. Shein, A. Soldatov, N. Tyurin, V. Vassil’chenko, D. Vavilov, A. Yanovich

• INFN – University of Perugia – G. Anzivino, P. Cenci, E. Imbergamo, A. Nappi, M. Valdata • INR-Moscow – A. Ivashkin, D. Ishuk, M. Khabibullin, A. Khotjanzev, Y. Kudenko, A. Levchenko, O. Mineev, A.

Vasiljev, N. Yershov • KEK – M. Kobayashi • Kyoto University – K. Misouchi, H. Morii, T. Nomura, N. Sasao, T. Sumida • Kyoto University of Education – R. Takashima • State University of New York at Stony Brook – I. Christidi, M.Marx, R. D. Schamberger • Thomas Jefferson National Accelerator Facility - M. Ito • TRIUMF – P. Amaudruz, E. Blackmore, A. Daviel, M. Dixit, J. Doornbos, P. Gumplinger, R. Henderson, T. Numao,

R. Poutissou • Virginia Polytechnic Institute - M. Blecher, M. Pitt, B. Vogelaar • Yale University – G. Atoyan, S. K. Dhawan, V. Issakov, H. Kaspar, A. Poblaguev, M. Zeller • University of British Columbia – D. Bryman, M. Hasinoff • University of Cincinnati – K.Kinoshita • University of Montreal – J-P. Martin

University of New Mexico - B. Bassalleck, N. Bruner, D. E. Fields, J. Lowe, T. L. Thomas

University of Virginia – D. Pocanic • University of Zurich – P. Robmann, S. Scheu, P. Truöl This experiment will be a measurement of the branching ratio for the rare decay

• •

L →πoK νν . The method employs kaon time-of-flight and full kinematic reconstruction of the πo to suppress backgrounds to a level well below an anticipated signal in the range of 3 ± 1.2 x 10-11. Construction and operation of this experiment will be funded by the NSF.

EXPERIMENT 926 – MEASUREMENT OF K OL→ πO ν⎯ν (KOPIO)

SPOKESPERSON: D. BRYMAN, L. LITTENBERG, M. ZELLER

19

XPERIMENT 927 Home Page http://bmkn8.physics.ucla.edu/Crystalball/crystalball.htmlE

20

Beam: C6 Status: Tests Completed


• University of California at Los Angeles - S. C. McDonald, B. M. K. Nefkens, J. W. Price, W. B. Tippens • Joint Inst. for Nuclear Research - Dubna – A. Efendiev • Abilene Christian University - L. D. Isenhower, M. E. Sadler • Argonne National Laboratory - H. M. Spinka • Arizona State University - J. R. Comfort, K. Craig • Rudjr Bošković Inst., Zagreb, Croatia - M. Batinić, I. Šlaus, I. Supek, A. Švarc • University of Colorado – R. J. Peterson • George Washington University – C. Bennhold, W. J. Briscoe • University of Karlsruhe, Germany – H. M. Staudenmaier • Kent State University – D. M. Manley • St. Petersburg Nucl. Phys. Inst., Gatchina – A. B. Starostin • University of Regina, Canada – G. J. Lolos, Z. Papandreou • Valparaiso University – J. Alyea, D. Grosnick, D. D. Koetke, R.W. Manweiler, S.Stanislaus

The goal of this experiment is to measure the K e3 + decay rate to better than 0.7%. This translates into an absolute determination of Vus to better than 0.35%, not including the error in the theoretical evaluation of the small correction for the finite quark masses. Combined with the relatively well known values for Vud and Vub, this provides the most stringent test of the unitarity of the CKM matrix. Among several reasons that such a test is of interest is the proposed existence of supersymmetry (SUSY) particles which are predicted to cause a small deviation from the unitarity relation.

EXPERIMENT 927 – MEASUREMENT OF THE K E3 + DECAY RATE AND SPECTRUM

SPOKESPERSON: B. M. K. NEFKENS

21

EXPERIMENT 930 Home Page

22

Beam: D6

Status: Partially Complete Hours Approved /Charged: 1428/1002

• Brookhaven National Laboratory – D.E. Alburger, R.E. Chrien, H. Hotchi, M. May, P. Pile, A. Rusek, R. Sutter • Carnegie Mellon University – P. Eugenio, G.B. Franklin, P. Khaustov, B.P. Quinn, R.A. Schumacher • China Institute of Atomic Energy – S.H. Zhou • Hampton University – L. Gran, L. Tang, L. Yuan, X.F. Zhu • Kyoto University – H. Akikawa, K. Imai • North Carolina A&T University - R. Sawafta • Osaka University - S. Ajimura • Tohoku University – Y. Miura, J.Sasao, H. Tamura, M. Ukai

University of Freiburg – J. Franz, H.Schmitt

University of Tokyo - K. Tanida

As part of the data set for this experiment, a sample of 10B was studied in an attempt to look for the low-lyingtransition predicted by theory to be about 200 keV. In a confirmation of the null result by Chrien, et al., as partof the AGS E781 experiment, no transition was observed. This null result has an important consequence for thep-shell analysis of Millener, Gal, and others, and suggests the necessity of including effective 3-body forces dueto Λ - Σ mixing in the theoretical interpretation. From the oxygen target, several high-energy transitions were observed from the decay of O to low-lying

states of that hypernucleus. The fine structure observed near 6 MeV will yield important information on thetensor interaction in the p-Shell. Furthermore, the weak decay of O to N is now being analyzed with the

help of predictions by Millener and Motoba.

EXPERIMENT 930 – HIGH-RESOLUTION γ SPECTROSCOPY OF HYPERNUCLEI

USING LARGE-ACCEPTANCE GERMANIUM DETECTOR

SPOKESPERSON H. TAMURA

:

• •

Λ16

Λ16

Λ15

23

EXPERIMENT 931 Home Page http://e931.phys.uh.edu

24


Hours Approved /Charged/: 1537/1630

Arizona State University - J. R. Comfort, C. Gauland

• Brookhaven National Laboratory - R. E. Chrien, M. May, P. H. Pile, A. Rusek, R. Sutter • Carnegie-Mellon Univer • CEBAF - L. Tang • Christopher Newport College - J. George Washington University - W. Briscoe

Los Alamos National Laboratory - J. Amann, D. Boudrie, C. Edwards, B. F. Gibson, C. Morris, J. O’Donnell, J-C. Peng, A. Thiessen

Louisiana Tech University - M. Barakat, K. Johnston

es - B. Nefkens, W. B. Tippens

sity of Minnesota - D. Dehnhard

University of Texas at Austin - G. Glass, C. Fred Moore, H. Ward

University of Zagreb - D. Androic, M. Furic, T. Petkovic, M. Planinic

This experiment addressed an unresolved, fundamental question of “why” and “when” to apply the ∆I= ½ rule the weak decay of strange hadrons. The opportunity existed to determine if this apparently universal rule

pplies to the non-mesonic weak decay of a Λ, by studying particle emission from the weak decay of Λ4He. The

experiment used the NMS spectrometer and the LESBII beam line.

EXPERIMENT 931 – STUDY OF THE ∆I = ½ RULE IN THE WEAK DECAY

OF S-SHELL HYPERNUCLEI

SPOKESPERSON: D. DEHNHARD, E. HUNGERFORD, B. QUINN, V. ZEPS

•

sity - G. B. Franklin, B. Quinn

Gerald

• • •

North Carolina A&T - R. Sawafta • R. Boskovic Institute - I. Supek •

• Tohoku University - O. Hashimoto • University of California at Los Angel • University of Colorado - G. A. Peterson • University of Houston - M. Ahmed, X. Cui, A. Empl, E. V. Hungerford, A. Lan, B. Mayes, L. Pinsky • University of Kentucky - V. Zeps • University of Maryland - P. G. Roos • Univer • •

toa

25

ome Page http://meco.ps.uci.edu/

EXPERIMENT 940 H

26

Beam: A3 Status: 2005 Construction Start


• Boston University – J. Miller, O. Rind, B. L. Roberts • Br o, • Institute of Nuclear Research - R. Djilkibaev, V Lobashev, A. N. Toropin • New York Un – A. Mincer, P. , J. Sculli

zon, JH. Popp, V. Tumakov

e- N with a significantly improved sensitivity with spect to past and proposed future searches. Interest is in searching for violations of additive quantum numbers

lepton irect evidence of muon and electron number violation.

g a pulsed proton beam. The proton nergy will be chosen in the range 8-20 GeV to optimize the µ flux per unit time and minimize operating costs

the kinematically similar process of µ capture on the ucleus, is one event for a branching fraction of 2 x 10 .

onstruction and operation of this experiment will be funded by the NSF.

EXPERIMENT 940 – A SEARCH FOR µ - N→ e -

N WITH SENSITIVITY BELOW 10 -16

MUON-ELECTRON CONVERSION (MECO)

SPOKESPERSON: W. MOLZON

ookhaven National Laboratory – M. Brennan, K. Brown, G. A. Greene, L. X. Jia, W. MarcianW. Morse, P. Pile, Y. Semertzidis, P. Yamin

.

iversity Nemethy

• Osaka University – M.Aoki, Y. Kuno, A. Sato

Pennsylvania State University – W. Walkes • Syracuse University – R. Holmes P. Souder •

William and Mary College – M. Eckhause, J. Kane, R. Welsh •

University of California at Irvine – C. Chen, M. Hebert, W. Mol•

on • University of Houston – E. Hungerford, K. A. Lan, L. Pinsky, J. Wils

• University of Massachusetts – K. Kumar This experiment proposes to search for the process µ- N→ reassociated with each type of lepton. Violation of these quantum numbers is commonly referred to asflavor violation (LFV). The process will provide d The experiment will be conducted in a new µ beam line produced usineof the experiment. The expected sensitivity, normalized to

-17n C

27

Pome Page http://www.bnl.gov/medical/NASA

EX ERIMENT 947 H

Beam: A3

28

Alabama A&M University - P. Kale

Brookhaven National Laboratory - B. Sutherland, M. Vazquez

•

Colorado University – J. Bedford, C. Waldren

berg

hen

Washington State University – A. L. Brooks

Status: Completed FY 2000 Hours Approved /Charged/: 300/335

EXPERIMENT 947 – NASA – RADIOBIOLOGY

• •

Case Western Reserve University – H. Evans

•

Columbia University – T. K. Hei • John Hopkins Medical Inst. – J. Dicello •

Lawrence Berkeley Laboratory – H. Barcellos-Hoff, J.Miller, P. Cooper, A. Kronen•

Los Alamos National Laboratory – D. J.C•

• Pacific Northwest National Laboratory – N. Metting • Texas A&M University – R. R. Sinden • University of Maryland - B.Rabin •

This was part of a continuing program of experiments in radiobiology, funded by the National Aeronautics and Space Agency (NASA) as part of their space-related research efforts in the life sciences.


29

EXPERIMENT 949 Home Page http://www.phy.bnl.gov/e949/

Elevation View of the E949 Detector

http://www.hep.umn.edu/numass

30

Beam: C4

Status: Partially Complete Hours Approved /Charged: 6000/2402

nal Laboratory – B. Bhuyan, I-H. Chiang, M. V. Diwan, J.S. Frank, J. S. Haggerty, D.E. Jaffe, S. H. Kettell, K.K. Li, L.S. Littengerg, G. Redlinger, R.C. Strand, B. Viren

hysics – A. Artamonov, A. Kozjevnikov, A. Kushnirenko, L. Landsberg, V. Mukhin, V. Obraztsov, D. Patalakha, S. Petrenko, D. Vavilov

ura, T. Yoshioka

ty – T. Fujiwara, K. Mizouchi, T. Nomura, N. Sasao

Osaka Univrsity - M. Nomachi

Research Center for Nucl. Phys., Osaka University – T. Nakano

TRIUMF - P. C. Bergbusch, E. W. Blackmore, S. Chen, J. Hu, A. Konaka, J. A. Macdonald, J. Mildenberger, T. Numao, J-M. Poutissou, R. Poutissou • University of British Columbia – D.A. Bryman • University of New Mexico – B. Bassalleck, B. Lewis, J. Lowe • State University of New York at Stony Brook – I.-A. Christidi, M. D. Marx

• Brookhaven Natio

EXPERIMENT 949 – AN EXPERIMENT TO MEASURE THE BRANCHING RATIO

• Centre for Subatomic Research-U. Alberta - P. Kitching • Fermi National Accelerator Laboratory – P.S. Cooper, E. Ramberg, R.S. Tschirhart • Fukui University - M. Miyajima, Y. Tamagawa • Inst. High Energy P • Inst. Nuclear Research – A.P. Ivashkin, M.M. Khabibullin, A.N. Khotjantsev, Y.G. Kudenko, A.S. Levchenko, O.V. Mineev, N.V. Yershov • Japan Atomic Energy Research Inst. – N. Muramatsu • KEK - S. Kabe, M. Kobayashi, T.K. Komatsubara, K. Omata, T. Sato, T. Sekiguchi, S. Sugimoto,

T. Tsuneimi, Y. Yoshim • Kyoto Universi National Defense Academy of Japan – T. Shinkawa •

• • •

B (K+ → π+ ν⎯ν )

SPOKESPERSON: D. BRYMAN, S. KETTELL, S. SUGIMOTO

A new, more precise measurement of the K+ →π+ ν⎯ν branching ratio is proposed in this experiment. Improvements to the E787 apparatus and running mode will be made to reach a sensitivity of (8-14) x 10-12, an order of magnitude below the Standard Model prediction. This should result in a determination of |Vtd| to better than 27%. EXPERIMENT 951 Home Page http://www.hep.princeton.edu/mumu/target/

High Field Pulsed Solenoid

15 T with 4.5 MW Pulsed Power 15 cm warm bore 70o K Operation 1 m long beam pipe

31

32

Beam: A3 Status: Partially Complete


in

. Brown, R. C. Fernow, C. C. Finfrock, D. Gassner, G. A. Kirk, R. B. Palmer, A. F. Pendzick, R. Samulyak, J. Scaduto, N.

Fermi National Accelerator Laboratory – N. V. Mokhov

Lawrence Berkeley National Laboratory – Y. Fukui, M. A. Green, L. L. Reginato

ler • Oak Ridge National Laboratory – D. L. Beshears, M. C. Cates, T. A. Gabriel, J. R. Haines, B. W. Riemer,

P. T. Spampinato, C.- C. Tsai • Joseph Henry Laboratories, Princeton U. – C. Lu K. T. McDonald

e R&D program investigates targetry issues for a muon-collider source consisting of the initial studies of quid (and solid) target materials with a proton beam at the AGS. Studies of a liquid-metal jet entering a 20-T agnet at the Natl. High Magnetic Field Lab (NHMFL) in Florida as well as studies of a full-scale liquid-metal

jet in a beam of 1014 protons per pulse, but without magnetic field are being done. Studies are done of a liquid-metal jet + proton beam + 20-T pulsed solenoid magnet and studies of a 70MHz rf cavity downstream of the target in the proton beam, but without a magnet around the rf cavity. Characterization of the pion yield downstream of the target + rf cavity and simulation of e performance of liquid-metal targets; thermal shock, eddy currents are studied.

EXPERIMENT 951 – AN R&D PROGRAM FOR TARGETRY AND CAPTURE

AT A MUON-COLLIDER SOURCE

SPOKESPERSON: K. T. MCDONALD

• Argonne National Laboratory – A. Hassane • Brookhaven National Laboratory – K. A

Greene, S. A. Kahn, B. J. King, H.G. Simos, P. Theiberger, T.Y.F. Tsang, H. Wang, R. Weggel

• CERN – D. L. Bernadon, A. Fabich, C. Johnson, J. Lettry, H. Ravn • • • Michigan State University – A. Zeller • National High Magnetic Field Laboratory – J. R. Mil

,

hTlim

th

33

EXPERIMENT 952 Home Page http://www.hep.umn.edu/numass

Beam: V1

Status: Approved Hours Approved /Charged:

34

35

• Boston University – R.M. Carey, J.P. Miller, O. Rind, B.L. Roberts • Brookhaven National Laboratory – H. Brown, G. unce, J.W. Glenn, Y.Y. Lee, W. Meng, W.M. Morse, C. Ozben, Y.K. Semertzidis • New York University – P. Nemethy

Newman Laboratory, Cornell University – Y. Orlov

• Physik Inst. der University of Heidelberg – K. Jungmann, G. zu Putlitz • Universit • University of Minnesota – P. B. Cushman, A. Heering, I. Kronkvist • Yale University – F.J.M. Farley, V.W. Hughes*

he g-2 Storage Ring is a unique facility for precision measurements that test the standard model. This experiment hopes improve the muon neutrino mass limit by a factor of 20 (from 170 keV down to 8 keV) which will be the largest factor provement made in any neutrino species mass within the last 20 years. It utilizes the storage ring as an extremely if hter muon momenta from the π→µν decay in flight. The

xperiment avoids multiple scattering limitations by transforming the momentum measurement into a position on an event-by-event basis to the parent π depends on the

ass

o degrades the pion energy. Silicon micro-strip detectors on ther si rough S1 and then entering the other side through S2 e etter than 1 ppm), pions which do not decay end up

ack at the same position on the detector from which they started, no matter what their initial momentum and angle, where- resulting radial distribution, referenced on a particle-by-particle

asis to the parent pion, will consist of a large narrow peak at zero for undecayed pions and a broad distribution repre-t rn to the origin makes the experiment relatively insensitive to the

ti peak provides an in situ calibration of the orbital parameters and agnet

ince the muons which decay in the forward direction actually have a higher momentum than the parent pion, they will averse a larger diameter circle. Muons that are produced in the forward direction at a point halfway around the ring will

fact, they represent the maximum displacement of any daughter muon with any decay angle. Thus, the radial distribution of the decay muons referenced on a particle-by-particle basis to the radial position of their parent pions has a well-defined

B

•

y of Illinois – P.T. Debevec, D.W. Hertzog, C.J.G. Onderwater

Ttoimun orm spectrometer to compare the parent pion and daugemeasurement; the edge of the µ radial distribution referenced

of the recoiling ν. m n rder to put pions on orbit in the ring, 5.2 cm of berylliumI

ei de of the degrader record the position of the particle exiting thon cycle later. Because of the excellent magnetic field uniformity (bbas the daughter muons will cover a range of positions. Thebsen ing the decay products. The fact that the pions retuni al pion distribution. The width of the undecayed pioni

m ic field uniformity. StrtInherefore have the maximum radial displacement from the parent pion initial impact point when they return to the detector.

edge. If the neutrino has mass, this will reduce the energy of the forward-going muon and shrink the edge of the decay muon distribution by an amount which is sensitive to the square of the neutrino mass, but relatively insensitive to the uncertainty in the pion mass. * deceased EXPERIMENT 953 Home Page http://bmkn8.physics.ucla.edu/Crystalball/crystalball.html

EXPERIMENT 952 – AN IMPROVED LIMIT ON THE MUON NEUTRINO MASS FROM PION

DECAY IN LIGHT

SPOKESPERSON: . B. CUSHMAN

F

P

Beam: C6

Status: Approved

36

37


• Abilene Christian University – L. D. Isenhower • Argonne National Laboratory – H. M. Spinka • Arizona State University – J. R. Comfort

George Washington University – W. J. Briscoe • Kent State University – D.M. Manley • Petersburg Nucl. Phys. Institute – V.V. Abaev, V.S. Bekrenev, N.G. Kozlenko, S.P. Kruglov, A.A. Kulbardis, I.V. Lopati • Rudjer Boškovic Institute – I. Šlaus, I. Supek, A. Švarc

University of California – B.M.K. Nefkins, S.N. Prakhov, J.W. Price, A.B. Starostin, W.B. Tippens

Kupsc, B. Morosov

etke, R.W. Manweiler, T.D.S. Stanislaus

ing ground for nonperturbative QCD models. This proposal ctons for K-p→γΛ, K-p→γΣ0, K-p→π0Λ, K-

MeV/c. These measurements will complete A of AGS E914.

EXPERIMENT 953 – NEUTRAL HYPERON S ECTROSCOPY WITH THE CRYSTAL BALL

SPOKESPERSON: D. M. MANLEY B.M.K. NEFKENS, H. SPINKA

P

•

n

• • University of Colorado – R.J. Peterson

denmaier • University Karlsruhe – H.M. Stau • University of Maryland – D.C. Peaslee • Uppsala University – H. Calen, S. Kullander, A. • Valparaiso University – D. Grosnick, D.D. Ko

,

The spectroscopy of hyperons is a fundamental testplans to perform measurements of absolute differential cross sep→π0Σ0, K-p→ 0

sK n, and K-p→ηΛ in the momentum rante 500-750 the program originally approved as Phase

EXPERIMENT 955 Home Page http://lansce.lanl.gov/research/radiography/mcclelland.htm

38

39

Beam: U Status: Completed FY 2001

Hours Charged: 65

Bechtal Nevada – R. T. Thompson, R. P. Liljestrand, D. V. Morgan, A. Whiteson

Brookhaven National Laboratory – G. A. Greene, A. Hanson, J. Scaduto

Lawrence Livermore National Laboratory – E. Ables, M. B. Aufderheide, P. D. Barnes Jr., ley, D. M. Wrigth

. Alrick, K. L. Buescher, D. J. Clark, C. J. Espinoza, J. J. Gomez, N. T. Gray, G. W. Hart, M. Y. Hockaday, G. E. Hogan, N. S.P. King, A. R. Mathews, J.B. McClelland,

ller, M. M. Murrag, P. D. Pazuchanics, J.S. Sarracino, A. Saunders, M. D. Wilke, J. D. Zumbro

ince experiment 933 was originally proposed, several additional questions have arisen about using protons for dvanced radiography. This experimental program included measurements on a wide range of step wedges to

eeded for an AHF. These data were taken on both image plates and with active cameras, ith a greater emphasis on the active camera data in order to most efficiently use the beam time.

EXPERIMENT 955 – PROTON RADIOGRAPHY AT THE AGS IN THE U-LINE

SPOKESPERSON: C. L. MORRIS, E. P. HARTOUNI

• • • E. P. Hartouni, H-S. Park, R. A. Soltz, L. Wi • Los Alamos National Laboratory – K. R

K. B. Morley, C. L. Morris, C. T. Mottershead, K. H. Mue

Savalidate the separation of Coulomb and nuclear scattering using different collimators to demonstrate material ID. These measurements were made using both active detectors (cameras) and image plates (to ensure sufficient range). Data were taken with the full range of available collimators for completeness. Domonstrations of material ID on classified thick objects were done. Background characterizaton and mitigation for the active cameras were done. Sources and shielding techniques to reduce the star background in the CCD cameras will be studied. Data were taken at a number of angles on suitable test objects aimed at providing input to help define the number of axis nw

40

XPERIMENT 956 ome Page

EH

41

Beam: C7

Status: Completed FY 2001 0

stitute – N. Watanabe

Los Alamos National Laboratory – G. Russell

– J. Haines

Paul Scherrer Institute – G. Bauer

proposed future sources. The initial studies on a Hg target system have confirmed unique role e AGS. The experiment continued the measurements of the pressure wave behaviour under

g and evaluated mitigation measures. Another critical area is advanced moderator well as materials studies for moderator containment. To carry out these studies it is important to

velop a solid target that was passively safer as a neutron source. This target was tested and used in the second nd third years of the program. Studies of a novel moderator (methane pellet bed) and slab moderator onfigurations were done. These efforts completed the establishment of a spallation neutron test facility capable f the full range of R&D from the target through the moderator and up to and including advance detector evelopment.

Hours Charged: 9

EXPERIMENT 956 – SPALLATION NEUTRON STUDIES AT THE AGS

• Argonne National Laboratory – J.M. Carpenter • Brookhaven National Laboratory – J. B.Hastings • Forschungszentrum Centre - Julich – H. Conrad

Japan Atomic Energy Research In• • • Oak Ridge National Laboratory •

SPOKESPERSON: J. B. HASTINGS, G. BAUER, N. WATANABE

There was a worldwide effort in the planning, design and construction of the next generation neutron sources. The focus was on spallation sources with average powers of up to 5 MW and single pulse energies of 100 kjoules. The critical design issues centered around the heavy metal target. All of the design studies considered liquid mercury as a first choice. The AGS is a unique resource to study in detail neutron production, pressure wave mitigation and other important issues in target design. It is the only proton source in the world with the energy per pulse equal to the the of thpeak power loadinperformance asdeacod

42

XPERIMENT 957 ome Page http://www.bnl.gov/medical/NASA

EH

Dr. Mauro Belli setting up a sample to be exposed to iron ions

43

Beam: A3 Status: Completed FY 2001


Brookhaven National Laboratory - R. Setlow, B. Sutherland, M. Vazquez

Rydberg een, G. Nelson

cinota F. Antonelli, M. Belli, G. Simone

J. Kinnison, D. Stephens dical Center – F. Burns

ne

idoli, M. Cosolino, L. Narici, W.Sanita

and intact specimens, which required a complex coordina-. Biological studies used human, mouse, rat and hamster

EXPERIMENT 957 – NASA RADIOBIOLOGY

S : M. VAZQUEZ POKESPERSON

• • Case Western Reserve University – H. Evans

Colorado University – J. Bedford, C. Waldren • • Columbia University – T. K. Hei

Human Nutrition Research Center on Aging – J. Joseph • • John Hopkins Medical Inst. – J. Dicello, D. Huso

Lawrence Berkeley Laboratory – H. Barcellos-Hoff, J.Miller, P. Cooper, A. Kronenberg, B.• • Loma Linda University – L. Gr

NASA Headquarters – W. Schimmerling • • NASA Johnson Space Center – F. Cuc

National Inst. of Health, Rome Italy – • • NSCORTLBNL-CSU –

New York University Me• • Prairie View A&M University – R. Wilkins

Texas A&M University – L. Braby, J. Lupton • • University California – San Fran. – B. Fouladi, J. Murna

University “Federico II”, Napoli – M. Durante • • University of Maryland - B.Rabin

University Pennsylvania – J. Gerwitz • • University of Rome, Thor Vergara – V. B

University of Texas Health Sciences – M. Natarajan• • University Tokyo – A. Sima During the Winter of 2000 a series of radiobiologial and physics experiments were performed using BNL’s AGS to accelerate iron ion beams. These experiments were part of the seventh consecutive run sponsored by NASA’s Space Radiation Program (SRHP) heavy ion radiobiology research program at BNL. The AGS provided iron beams with an energy of 1 GeV/nucleon (1.046 GeV/nucleon, LET: 148 keV/µm), for biology and physics experiments. The dose/rates used were as low as 10 cGy/min and as high as 15 Gy/min. The spill rate employed was 30 spills/min with a duration of 500-600 msec/spill. The spill fluence (particles/spill) was 1 x 108 (max) and 1.5 x 105 (min). The intensities (particles/cm2/sec on target) used during the run were 1 x 108 (max) and 400 (min). A 7.5cm diameter beam spot was employed as a nominal spot for the majority of the exposures. For larger samples (animals), an elliptical spot was used (up to 9cm). Radiobiological experiments employed cells, tissues, tion and planning of their respective logistic support

44

ll lines, human-hamster hybrid cell lines, tumor cell lines and intact specimens (rodents and fish). Physics

XPERIMENT 958 ome Page http://bmkn8.physics.ucla.edu/Crystalball/crystalball.html

cexe periments involved the exposure of solid-state detectors and spacecraft materials.

EH

45



Abilene Christian University – L. D. Isenhower

•

mirez

W. J. Briscoe, A. Shafi

eier

University of California N. Prakhov, J.W. Price, A.B. Starostin

University of Karlsruhe – H.M. Staudenmaier

s, Z. Papandreou

Uppsala University – H. Calen, T. Johanson, A. Kupsc, U.Wiedner

raiso University – D. Groznick, D. D. Koetke, R.Manweiler, S. Stanislaus

he experiment measured the cross-section and angular distributions for the π-p→π0n reaction with the Crystal r momenta between 50-180 MeV/c. The motivation for this was to provide accurate data to

ot agree well with partial-wave

EXPERIMENT 958 – PION CHARGE-EXCHANGE CROSS-SECTIONS

L E

SPOKESPERSON: M.E. SADLER, J. COMFORT

•

Argonne National Laboratory – H. M. Spinka • Arizona State University – J. R. Comfort, K.Craig, T. Ra • George Washington University – • Karlsruhe University – H. Staudenm • Kent State University – D. M. Manley, J. Olmsted • Petersburg Nucl. Phys. Institute – V.V. Abaev, V.S. Bekrenev, N.G. Kozlenko, S.P. Kruglov, A.A. Kulbardis • Rudjer Boškovic Institute –I. Supek

– B.M.K. Nefkins, N. Phaisangitisakul, S.•

• University of Colorado – R.J. Peterson • • University of Maryland – D.C. Peaslee • University of Regina – N. Knecht, G. Lolo • • Valpa

AT OW NERGIES

TBall spectrometer foexplore isospin invariance in the πN system, to supercede existing data that do n

46

nalysis (PWAs) and to complement differential cross-section and analyzing power data for π+p→π+p and π-

n. By providing high-quality results for the charge-exchange reaction, the amplitudes for N interactions n be defined more precisely. This will enable more reliable extractions of the up-down quark mass difference

nd the sigma term.

XPERIMENT 960 ome Page http://www.bnl.gov/medical/NASA/

ap→πa

0 πca EH

47

Beam: A3 Status: Completed FY 2002


P. Bennett, A. Billups, M. Bruneus, L. Estevez, P. Guida, M. Hada, S. Koslovsky, D. Monteleone, S. Otto, R.Setlow, J. Jardine, B. Sutherland, O. Thomas, J. Trunk, M. Vazquez

• Hum

Lawrence Berkeley Laboratory – A. Chatterjee, L. Heilbronn, W. Holley, J.Miller, R.P. Sigh, P. Wilson, C. Zeitlin

NASA, DC Headquarters – W. Schimmerling

National Inst. of Health – Rome, Italy – M. Belli, P. Scampoli, G. Simone

Texas A&M University – L. Braby, J. Ford, T. Good, C. Henderson, A. Houck, J. Lupton, N. Popovic, L. Sanders, S. Taddeo, N Turner, M. Young Hong

University of California at San Francisco – R. Eltanal, B. Fouladi, J. Murnane

University “FedericoII” Napoli, Italy – M. Durante, G. Grossi

University of Maryland - B. Rabin

University of New York Medical Center – F. Burns, J. Xu

University of Pennsylvania – J. Donahue, J. Gerwitz, A. Kennedy, M. Stanislaus, S. Wan, J. Ware

University of Tokyo – A. Shima

his was part of a continuing program of experiments in radiobiology, funded by the National Aeronautics and pace Agency (NASA) as part of their space-related research efforts in the life sciences. A series of diobiological and physics experiments were performed using the AGS to accelerate iron ion beams. These

xperiments are referred to as BNL/AGS-Run 8.


• Brookhaven National Laboratory - • Columbia University – E. Hall, J. Koniarek, B. Worgul

an Nutrition Research Center on Aging, MA – A. Eggleston, D. Jenkins, J. Joseph, J. McEwen, B. Rabin, B. Sukitt-Hale, S. Szprengiel

• • Loma Linda University – B. Bianski, L. Green, S. Jones, W. Kennedy, T. Loring Meir, G. Nelson, A. Obenaus, M. Pecaut, A. Rainer, A. Smith, • NASA, Johnson Space Center – F. Cucinotta, K. George, S. Gonda, P. Sagamti, V. Willingham, H. Wu • • •

• • • • • •


TSrae

48

experiments employed cells, tissues, and intact specimens, which required a complex oordination d planning of their respective logistic support. Biological studies used human, mouse, rat and

hysics experiments involved the exposure of solid-sta detectors and spacecraft materials. The full program was completed in nine days.

XPERIMENT 961 ome Page

Radiobiologicalanc

hP

amster cell lines, human-hamster hybrid cell lines, tumor cell lines and intact specimens (rodents and fish). te

EH

49

Beam: V1 Status: Completed FY 2001


Laboratory – R. E. Chrien, S. H. Kahana, M. May, P. Pile, A Rusek, R. Sutter

Carnegie Mellon University – A. Berdoz, D. Carman, P. Eugenio, G. B. Franklin, P. Khaustov, P. Koran, C. Meyer, K. Paschke, B. P. Quinn, R. A. Schumacher

Hampton University – L. Gran, L.Tang, L.Yuan

KEK – T. Nagae, H. Outa, M. Sekimoto

Institute for Nuclear Research, Russia – A. Kourepin, M. Prokhabatilov, V. Rasin, K. Shileev

Kyoto University – H. Akikawa, A. Ichikawa, K. Imai, K. Yamamoto

Osaka University – S. Ajimura, T. Kishimoto, H. Kohri, S. Minami, Y.Shimizu

ty – Z. Meziani

Pusan National University – J. K. Ahn

TRIUMF – C. A. Davis,

Osaka Electro-Communication University – T. Fukuda

University of Freiburg – H. Fischer, J. Franz, H. Schmitt

University of Manitoba – С. A. Davis, M. Landry

University of New Mexico – B. Bassalleck

University of Tokyo – H. Hotchi, K. Kubota, T. Miyachi, J. Nakano, T. Tamagawa, K. Tanida

he study of double-Λ hypernuclei (S=-2) provides unavailable information concerning the Λ-Λ force, which is important order to understand the baryon-baryon interaction in a unified way, and in particular, for its applicaton to multi-strange stems, such as hyperon-mixed neutron stars and strangelets. However, the experimental studies on such systems have

een quite limited.

EXPERIMENT 961– STUDY OF DOUBLE-Λ HYPERNUCLEI BY

SEQUENTIAL PIONIC DECAYS

SPOKESPERSON: T. FUKUDA, A. RUSEK, R. E. CHRIEN

• Brookhaven National • • • • • • • Temple Universi • • • • • • • Tinsyb

50

he method of detecting sequential pionic decays to identify S=-2 hypernuclides was tested in E906, and the published sults showed that the cylindrical detector system constructed for E906 was capable of detecting relatively large quantities

f double-Λ hypernuclides. This experiment confirmed and expanded on the findings of E906, using the same technique, ith important modifications and additions, imporivng both the momentum resolution and the signal-to-background ratio. he use of a different target, 7Li, in place of the 9Be used in E906 eliminated almost all the ambiguities in interpreting the ata. XPERIMENT 962 ome Page http://www.g-2.bnl.gov/index.shtml

TreowTdEH

Sweeper Magnet

Beam: Status: Approved

Hours Approved /Charged:2000/0

EXPERIMENT 962 – PRECISE MEASUREMENT OF THE POSITIVE MUON

ANOMALOUS MAGNETIC MOMENT

SPOKESPERSON: B. L. ROBERTS

51

Boston University – R.M. Carey, E. Efstathiadis, M.F. Hare, F.Krienen, I. Logashenko, J.P. Miller, J.M. Paley, O. Rind, B.L. Roberts, L.R. Sulak, A. Trofimov

• Brookhaven National Laboratory – H.N. Brown, G. Bunce, G.T. Danby, R. Larsen, Y.Y.Lee, W. Meng, J. Mi, W.M. Morse, D. Nikas, C.S. Özben, R. Prigl, Y.K. Semertzidis, D. Warburton

• Budker Institute – V.P. Druzhinin, G.V. Fedotovich, D. Grigoriev, B.I. Khazin, I. Logashenko, N. Ryskulov, Yu. M. Shatunov, E. Solodov • Cornell University, Newman Laboratory, – Y. Orlov • Fairfield University – D. Winn • KEK – A. Yamamoto • Physikalisches Inst. Der U. Heidelberg – A.Grossman, K. Jungmann, G. Zu Putlitz, P. Von Walter, D.

Zimmerman • Univeristy of Illinois – Urbana-Champaign– P.T. Debevec, W. Deninger, F. Gray, D.W. Hertzog, C.J.G.

Onderwater, C. Polly, S. Sedykh, M. Sossong, D. Urner

• University of Minnesota – P. Cushman, L. Duong, S. Giron, M. Iwasaki, M. Kawamura, J. Kindem, I. Kronkvist, R.McNabb, C. Timmermans

• Yale University – M. Deile, H. Deng, S.K. Dhawan, F.J.M. Farley, M. Grosse-Perdekamp, V.W. Hughes*,

D. Kawall, J. Pretz, S.I. Redin, E.P. Sichtermann, A. Steinmetz This experiment provides a sensitive test of the standard model of particle physics and new informa-tion on speculative theories beyond it. Compard to the electron, the muon g value is more sensitive to standard model extensions, typically by a factor of (mµ/me)2.

•

52

deceased

XPERIMENT 963 ome Page http://lansce.lanl.gov/research/radiography/mcclelland.htm

* EH

E-963 Radiographs at 24 GeV

Alcatel Vacuum Pump Turbine Ford V-8 Engine Head

53

Beam: U Status: Completed FY 2003

Hours /Charged: 173

• Bechtel Nevada – S. Baker, R. P. Liljestrand, D.V. Morgan, R.T. Thompson, T. Tunnel, A. Whiteson

• Brookhaven National Laboratory –G. A. Greene, A. Hanson, J. Scaduto, N. Tsoupas

• General Atomics – J.A. McGill

• LANL – J.G. Boissevain, K.L. Buescher, D.J. Cagliostro, D.A. Clar, D.J. Clark, G. Cunningham, C.J. Espinoza, E.Ferm, J.J. Gomex, N.T. Grayu, G.E ogan, N.S.P. King, K.K. Kwiatkowski, R.PP. Liljestrand, J.D. Lopez, J.A. McGill, F.G. Maria A.R. Mathews, F.Merrill, K.B. Morley, C. Morris, C.T. Mottershead, M.M. Murray, P.D. Pazuchanics, J.E. Pearson, J.S. Sarracino, A. Saunders, S. Sterbenz, D. Tupa, K. Vixie, P. Walstrom, M.D. Wilke, J.D. Zumbro

The primary reason for studying proton radiography at the AGS is to develop the techniques and validate the performance of high-energy proton radiogrpahy in support of advanced radiography. Advanced Radiography will collect multiple proton radiographs of hydrotests to provide data for stockpile stewardship. The goal of this experiment was to develop some of the techniques ne analyzing data using classified test objects to determine how well the advance radiography can meet these requirements.

EXPERIMENT 963 –PROTON RADIOGRAPHY AT THE AGS IN THE U-LINE

SPOKESPERSON MORRIS

:

. Hm,

C.

eded for

54

EXPERIMENT 964 Home Page

D6

Status: Approved Hours Approved /Charged: 1400/0

• Gifu University – K. Nakazawa

• Kyoto University – K. Imai

• Toh This experiment is a systematic study of double strangeness (S=-2) systems via nearly 100 nuclear samples and few hun

Beam:

55

EXPERIMENT 964 – SYSTEMATIC STUDY OF DOUBLE STRANGENESS SYSTEM

BY AN EMULSION-COUNTER HYBRID METHOD

SPOKESPERSON: K. IMAI, K. NAKAZAWA, H. TAMURA

oku University – H. Tamura

dred Ξ atomic X-ray events.

56

EXPERIHome

MENT 966 Page http://www.bnl.gov/medical/NASA

57

Beam: A3 Y 2003

3

• Bro

• Lawrence Berkeley Laborabory – A. Chatterjee, L. Heilbronn, W. Holley, J. Miller, R.P. Singh, P.

This is part of a continuing program of experiments in radiobiology, funded by the National Aeronautics and Space A of radiobio g the AGS to accelerate iron ion beams. This is BNL/AGS Run 9. Radiobi , and intact specimens, which required a complex coordin-ation an cell line experim materials.

Status: Completed FHours Approved/Charged: 200/18


okhaven National Laboratory – M. Vazquez

Wilson, C. Zeitlin


gency (NASA) as part of their space-related research efforts in the life sciences. A series logical and physics experiments were performed usin

ological experiments employed cells, tissuesd planning of their respective logistic support. Biological studies used human, mouse, rat and hamsters, human-hamster hybrid cell lines, tumor cell lines and intact specimens (rodents and fish). Physicsnts involved the exposure of solid-state detectors and spacecraft e

58

List of Publications for C-AD Experiments

57

BRAHM RHIC, Nucl. Phys. A566 (1994)(Quark Matter ’93).

experiments with amid-rapidity ectrometer”, Nucl. Phys. A566 (1994) (Quark Matter ’93).

. Moskowitz, Hadron distributions at higher rapdidity using the BRAHMS forward spectrometer, Physics w/ the

Matter 95).

e LHC, Proc. of the pre-Conf. Workshop (Wuark Matter 95).

,

st. Meth. A362 (1995).

-329.

ributions in adronic and nuclear reactions”, UIC, June 10-12, 1998.

. Videbaek, Proc. of Heavy ion mini

MD

orkshop, Budapest, Oct. (2000).

en (for BRAHMS collaboration), Nucl. Phys. A698, pp. 667c-670c (2002)

F. Videbaek (for BRAHMS collaboration), Results from the BRAHMS experiment, Nucl. Phys. A698, pp. 29c –

MS, Proc. 17th Winter orkhsop on Nuclear Dynamics, Park City, March (2001)

aardhoje (for BRAHMS collaboration), First result from the BRAHMS experiment at RHIC on AuAu ollisions at sqrt(snn)-130 GeV, Proc. of QCD and High Energy Hadronic Interactions, Moriond, Les Arcs, March

. Debbe (for BRAHMS collaboration), Charged particle multiplicities at BRAHMS, Proc. of INPC2001,

ions at RHIC

energies, Presented at ICPAQGP2001 4 Intl. Conf. On Physics and Astrophysics of Quark-Gluon Plasma, Jaipur,

Publications - AGS Experiments 1982 - 2003

This s thems pply us with information. It is easy to miss publications in such a wide search and we apologize for any left out or misidentified. Please let us know about these as well as keeping us posted on your

listing was originally prepared using the SLAC data base SPIRES; we now rely on the experimenterelves to su

recent publications of C-AD experiments.

S F. Videbaek, The BRAHMS experiment at

F. Jundt, et al., Time projection chambers for ultra-relativistic heavy-ionsp

Bcollider detectors at RHIC and the LHC, Proc. of Pre-Conf. Workshop (Quark

D. Beavis, Mid-rapidity measurements with the BRAHMS spectrometer, Physics w/ the collider detedtros at RHICand th

R. Debbe, et al., In-beam tests of a ring imaging Cerenkov detector with a multianode photomultiplier readoutNucl In

R. Debbe, et al., The ring imagining Cherenkov detector for the BRAHMS experiment, Nucl. Instr. Meth. A371 (1996) 327

F. Videbaek, The BRAHMS experiment at RHIC, Proc. of the RHIC summer-study 1996.

F. Videbaek, The BRAHMS experiment at RHIC, status and goals, Proc. of “workshop on particle disth

The BRAHMS experiment at RHIC, staus and first years physics, Fsymposium, Atlanta, (1999).

M. J. Murray, Forward energy and multiplicity in Au-Au reactions at sqrt9snn)=130 GeV, Proc. of ISW

I. G. Beard Particle ratios at forward and id-rapidities,

38c (2002) S. J. Sanders (for BRAHMS collaboration), Charged particle multiplicities at BRAHW J. J. Gc(2001) RBerkeley, CA. July 30-Aug. 3 (2001)

F. Rami (for BRAHMS collaboration), Charged particle density distributions in Au+Au collisth

India, Nov. 26-30 (2001)

58

_________________________________________________________________________________________________

. Roehrich (for BRAHMS collaboration), Results from the BRAHMS collaboration, Presented at the SQM01,

30 GeV, Phys. Rev.

ett. B. 523, pp 227 (2001)

RAHMS Collaboration, Rapidity dependence of antiproton to proton ratios in Au+Au collisions at

ity distributions of charged particles from Au+Au collisions at snn=130 and 200 GeV, Presented at the XL Intl.

D. Ouerdane (for BRAHMS collaboration), Towards matter-antimatter balance at RHIC. Anti-particle to particle

Presented at 8 Winter Workshop on Nuclear Dynamics, Nassau, Bahamas, Jan. 20-27 (2002)

. Rami (for BRAHMS collaboration), Charged particle production at RHIC energies, sqrt(snn)=130GeV, Proc.

D. Ouerdane (for BRAHMS collaboration), Rapidity dependence of charged particle yields for Au+Au at

C. E. Jorgensen (for BRAHMS collaboration), High pt spectra at forward rapidities in sqrt(snn)=200 GeV Au+Au

J. H. Lee (for BRAHMS collaboration), Rapidity dependent net-proton yields in central Au+Au at

J. G. Bearden (for BRAHMS collaboration), Results from the BRAHMS experiment at RHIC, Presented at QM02,

D. Roehrich (for BRAHMS collaboration), Results from the BRAHMS experiment at RHIC, Presented at ICHEP

H. Ito (for BRAHMS collaboration), Pseudorapidity distribution of charaged particles from pp and Au+Au

J. I. Jørdre (for BRAHMS collaboration), Rapidity dependence of strange particle ratios and spectra at

. Christiansen (for BRAHMS collaboration), Rapidity dependence of net-protons at sqrt(s_NN)=200 GeV Au-Au

BRAHMS Collaboration, Pseudorapidity distribution of charged particles from Au+Au collisions at the maximum

F. Videbaek (for BRAHMS collaboration), Proton and anti-proton distribution at RHIC, Presented at 19th Winter

R. Debbe (for BRAHMS collaboration), The naïve parton model and BRAHMS measurements, Presented at 19th

r Workshop on Nuclear Dynamics, Breckenride, Colo., Feb. 8-15 (2003)

Publications _

DFrankfurt, November (2001)

BRAHMS Collaboration, Charged particle densities from Au+Au collisions at sqrt(s_NN)=1L Bsqrt(s_NN)=130 GeV, Phys. Rev. Lett. 87, 112305 (2001) Z. Majka (for BRAHMS collaboration), Early results from the BRAHMS experiment at RHIC: Pseudorapid

Winter Mtg. On Nucl. Phys., Bormio, Italy, Jan. 21-26 (2002)

ratios measured with BRAHMS, Presented at XL Intl. Winter Mtg. On Nucl. Phys., Bormio, Italy, Jan. 21-26 (2002) P. Christiansen (for BRAHMS collaboration), Particle ratios from BRAHMS at sqrt(s_NN)=200 GeV,

th1 Fof QCD and High Energy Hadronic Interactions, Moriond, Les Arcs, March (2002)

sqrt(snn)=200 GeV, Presented at the QM02, Nantes, France, July (2002)

collisions, Presented at the QM02, Nantes, France July (2002)

sqrt(s_NN)=200 GeV, Presented at QM02, Nantes, France, July (2002)

Nantes, France, July (2002)

mtg. Amsterdam, Holland, August (2002)

collisions at RHIC energies, Presented at PANIC02, Osaka, Japan, Sept – Oct. (2002)

sqrt(s_NN)=200 GeV Au-Au collisions, Presented at POANIC02, Osaka, Japan Sept. – Oct. (2002)

Pcollisions, Presented at PANIC02, Osaka, Japan, Sept. – Oct. (2002)

RHIC energy, Phys. Rev. Lett. 88, 202301 (2002)

Workshop on Nuclear Dynamics, Breckenridge, Colo. , Feb. 8-15 (2003)

Winte

59

Publications _______ __________________________________________________________________________________________

J. H. Lee (for BRAHMS collaboration), Rapidity dependent strangeness measurements in BRAHMS, Presented at

RAHMS Collaboration, Rapidity dependence of charged anti-particle-to-particle ratios in Au+Au collisions at

ons at ence of high pt suppression, Phys. Rev. Lett. 91, 072305

3)

aboration), Particle production at RHIC energies, Presented at 8 Conf. On tersections of Particle and Nucl. Phys. CIPANP2003, NYC, NY, May 19-24 (2003)

. K. Lee, et al., Plastic scintilator centrality detedtor for BRAHMS, Nucl. Instr. Meth. A In press (2003) PHENIX

. Seto, PHENIX, invited talk at 2nd Intl. Conf. On Physics and Astrophysics of Quark-Gluon Plasma, Calcutta,

. Saito, Spin physics with PHENIX detector system at RHIC, Talk presented at Adriatico Research Conf.,

f the Nucleon”, RIKEN, Wako, Saitama, Japan, December 1995.

tchell (for the PHENIX collaboration), An overview of the PHENIX experiment at RHIC, Proc. of 14 Intl.

onf. On Particles and Nuclei, World Scientific, pp. 433 (1996), ANIC Conf. 1996.

. P. Morrison, The PHENIX experiment at RHIC, (IV-E-44), published in Proc. of 13 Intl. Conf. on Ultra-

an, Quarkk Matter ’97, Nucl. Phys. A638 (1998) 575c, Dec. 1-5, 1997.

d signatures of QGP, Intl. Workshop on Contemporary Nucl. Phys. by Korea Detector Laboratory, Korea U., Seoul, Korea, Apr 30-May 2, 1998.

bmitted to Kluwer Academic Press, New York 1999.

__

7th Intl. Conf. On Strangeness in Quark Matter, Atlantic Beach, N. Carolina, Mar. 12-17 (2003) Bsqrt(s)NN)=200 GeV, Phys. Rev. Lett. 90, 102301 (Mar 2003)

BRAHMS Collaboration, The BRAHMS experiment at RHIC, Nucl. Instr. Meth. A499, pp. 437 (Mar 2003) I. Arsene, et al., (for BRAHMS collaboration), Transverse Momentum spectra in Au+Au and d+Au collisisqrt(s_NN)=200 GeV and the pseudorapidity depend(200

R. Debbe (for BRAHMS coll th

In

Y

RIndia, January, 1993.

N“Trends in Colider Spin Physics”, ICTP, Trieste, Italy, Dec. 1995 and at the RIKEN Symposium “Spin Structureo

J. T. Mi th

C

thDRelativistic Nucleus-Nucleus Collisions, Tsukuba, Japan, Quark Mater ’97, Nucl. Phys. A638 (1998) 575c, Dec. 1-5, 1997.

N. Saito, Spin physics with PHENIX detectors, (IV-E-17), published in the Proc. of the 13th Intl. Conf. on Ultra-Relativistic Nucleus-Nucleus collisions, Tsukuba, Jap

Y. Miake, PHENIX experiment an

K. Read, The PHENIX experiment, su

K. Adcox, et al., Centrality dependence of charged particle multiplicity in Au-Au collisions at NNS = 130 GePhys. Rev. Lett. 86, pp. 3500, (2001)

V,

t. 87, pp 052301 (2001)

t sqrt(s) =

ions

K. Adcox, et al., Measurement of the midrapidity transverse energy distribution from sqrt(s) = 130 GeV Au-Au ollisions at RHIC, Phys. Rev. Letc

. Adcox, et al., Suppression of hadrons with large transverse momentum in central Au-Au collisions aK

130 GeV, Phys. Rev. Lett. 88, pp 022301 (2002) K. Adcox, et al., Centrality dependence of pi+-, p and pbar production from sqrt(s) = 130 GeV Au+ Au collis

t RHIC, Phys. Rev. Lett. 88, pp. 242301 (2002) a K. Adcox, et al, Transverse-mass dependence of two-pion correlations for Au+Au collisions at sqrt(s_NN) = 130 GeV, Phys. Rev. Lett. 88, pp. 192302 (2002)

60

Publicat ns _______ __

at 130 GeV, Phys. Rev. Lett. 88, pp 192303 (2002)

Ge V, Phys. Rev. Lett. 89, p. 082301 (2002)

K. Adcox, et al., Event-by-event fluctuations in mean p_T and mean e_T in sqrt(s_NN) = 130 GeV Au + Au

isions at sqrt (s_NN) = 0 GeV, Phys. Rev. Lett. 89, pp 2121301 (2002)

. Adcox, et al., Measurement of the lambda and lambda^bar par;ticles in Au+Au collisions in sqrt(s_NN) = 130

qrt , March 28, 2003

at sqrt _NN) = 200 GeV, Phys. Rev. Lett. 91, pp. 072301 (2003)

ler, et al., Scaling properties of proton and anti-proton production in sqrt (s_NN) = 200 GeV Au+Au ollisions, accepted for pub. Phys. Rev. Lett, Aug. 21, 2003

. S. Adler, et al., Absence of suppression in particle production at large transverse momentum in sqrt (s_NN) =

. S. Adler, et al., J/psi production from proton-proton collisions at sqrt(s) = 200 GeV, submitted to Phys. Rev.

. S. Adler, et al., High-pt charged hadron suppresson in Au+Au collisions at sqrt (s_NN) = 200 GeV, submitted

v. Lett., Sept. 9, 2003

2003

v C, Sept. 23, 2003

ct. 1, 2003

collisions, submitted to Phys. Rev Lett, Oct. 6, 2003

PHOBOroduction I Highly Excited

atter, Plenum Press Pub., pp.149-157 (1993)

io__________________________________________________________________________________________

K. Adcox, et al., Measurement of single electrons and implications for charm production in Au+Au collisionssqrt(s) = K. Adcox, et al., Net charge fluctuations in Au + Au interactions at sqrt(s_NN) = 130 p

collisions, Phys. Rev. C66, pp. 024901 (2002) K. Adcox, et al., Flow measurements via two-particle azimuthal correlations in Au+Au coll13 KGeV, Phys. Rev. Lett. 89, pp 092302 (2002) K. Adcox, et al., Centrality dependence of the high p_T charged hadron suppression in Au+Au collisions at s(s_NN) = 130 GeV, accepted for pub. Phys. Lett. B S. S. Adler, et al., Suppressed pi^0 production at large transverse momentum in central Au+Au collisions(s S. S. Adc S200 GeV d+Au collisions, Phys. Rev. Lett. 91, pp. 072303 (2003) SLett., July 8, 2003 Sto Phys. Rev. C, Aug. 11, 2003 S. S. Adler, et al., J/Psi production in Au-Au collisions at sqrt (s) = 200 GeV at the realativistic heavy ion collider,accepted for pub. Phys. Rev. C, Sept. 6, 2003

S. S. Adler, et al., Elliptic flow of identified hadrons in Au+Au collisions at sqrt (s_NN) = 200 GeV, accepted for pub. Phys. Re

S. S. Adler, et al., Midrapidity neutral pion production in proton-proton collisions at sqrt (s) = 200 GeV, acceptedfor pub. Phys. Rev. Lett., Sept. 19, S. S. Adler, et al., Identified charged particle spectra and yields in Au-Au collisions at sqrt (s_NN) = 200 GeV, accepted for pub. Phys. Re K. Adcox, et al., Single identified hadron spectra from sqrt (s_NN) = 130 GeV Au+Au collisions, accepted for pub. Phys. Rev. C, O S. S. Adler, et al., Measurement of non-random event-by-event average transverse momentum fluctuations in sqrt(sNN) = 200 GeV Au+Au S W. Busza, Low Pt physics and compact detectors at RHIC and LHC, in Particle PM

61

Publications __________________________________________________________________________________________________

. Wyslouch, The PHOBOS experiment at RHIC and AGS, Nucl. Phys. A566, pp.305c, (1994)

g, A. Chen, W.T. Lin, C. Hsu, S. Jan, C. Kuo, Improved Progress of fabrication AC-coupled silicon micro-strip sensors, Nucl. Instr. and Meth. A351, pp. 463-465 (1994)

article Dynamics, pp10, 5)

OS at RHIC publication, Advances in Nuclear Dynamics 2, Bauer and Estfall eds., Plenum Press, NY, pp. 225-232 (1996)

Development of a double metal, AC-coupled silicon pad detector. The silicon detector for the PHOBOS experiment at RHIC, Nucl. Instr. Meth. A389, 415 (1997)

ising at Brookhaven, presented at 13 Winter Workshop on Nuclear Dynamics, eds. Bauer & Mignerey, pp. 179-187, New York, Plenum Press (1997)

H. Pernegger, et al., Layout and tests of silicon pad detectors for the Phobos experiment at RHIC, presented at 8

g. 31-Sept. 5, 1997, Nucl. Instr. Meth. A418, pp. 154 (1997)

ug. 19-26, 1997, Springer Verlag, Berlin, 1999, Eds., D. Lellouch, G. Mikenberg, E. Rabinovici, pp. 619-627

and capabilities, Particle Dist. In Hadronic and

uclear Co World Scien M. Adams, R. Betts, T. Imbo, W.Y. Keung, U.

n detectors, Nucl. Phys. B78, pp. 245-251 (1999)

,

ltiplicity near mid-rapidity in central Au+Au collisions at √s=56 and 130

RHIC

. Stephans, How strange is Phobos? First RHIC physics results and future prospects, presented at Strange uark Matter, Berkeley, CA, July 2001, J. Phys. G. 27, pp. 659 (2201)

_

A W. Tsay, J. Hon

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J. Adams, et al., Strange anti-particle to par;ticle ratio at mid-rapidity in sqrt (snn) = 130 GeV Au+Au collisions, Phys. L

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J. Adams, et al., Three-pion HBT correlations in rela ivistic heavy ion collisions from STAto Phys. Rev. Lett, June 19, 2003 J. M. Landgraf, et al., An overview of the STAR DAQ system, Nucl. Instr. Meth. A 499, pp. 762 (2003) M. Beddo, et a E. Allgower, et al., The STAR endcap electromagnetic calorimeter, Nucl. Instr. Meth. A 499, pp. 740 (2003)

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J. C. Adler, et al., The STAR level-3 trigger system, Nucl. Instr. Meth. A 499, pp. 778 (2003) F K. H. Ackermann, et al., STAR detector overview, Nucl. Instr. Meth. A 499, pp. 624 (2003)

A. Braem and the STAR-RICH collaboration, et al., Identification of high p⊥ particles with the STAR-RICH detector, Nucl. Instr. Meth. A 499, pp. 720 (2003) M. M. Aggarwal, et al., The STAR photon multiplicity detector, Nucl. Instr. Meth. A 499, pp. 751 (2003) D. Reichhold, et al., Hardware controls for the STAR experimen(200 L. Arnold, et al., The STAR silicon strip detector (SSD), Nucl. Instr. Meth. A 499, pp. 652 (200 R. Bellwied, et al., The STAR silicon vertex tracker: A large area silicon drift detector, Nucl. Instr. Meth. A 499pp. 640 (2003) M. Anderson, et al., The STAR time projection chamber: A unique tool for studying high multiplicity events aRHIC, Nucl. Instr. Meth. A 499, pp. 659 (2003) F. S. Bieser, The STAR trigger, Nucl. Instr. Meth. A 499, pp. 766 (2003) J.at sqrt (snn) = 130 GeV , submitted to Phys. Rev. Lett, June 20, 2003

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J. Adams, et al., p0 production and possible modifications in Au+Au collisions at sqrt (s ) = 200 GeV , submitted Phys. Rev. Lett., July 30, to

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787 S. Ahmad, E.W. Blackmore, D.A. Bryman, J. Cresswell,T. Numao, Central drift chamber for rare kaon decay

spectrometer, IEEE Trans. Nucl. Sci. NS-33, 178 (1986)

R. C. Strand, Status of a study of the decay K +→π + νν , Third Conf. on the Intersections Between Particle aNucl. Phys., Rockport, Maine, Ed. Gerry M. Bunce, pp. 866-73 (1988)

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M.S. Atiya, et al., A study of K +→π + νν , IX European Symposium on Anti-proton-proton interactions andmental symmetries, Mainz, W. Germany, Sept. 5-

funda-10, 1988

J.V. Cresswell, S.Ahmad, B.W. Blackmore, D.A. Bryman, N. Khan, Y. Kuno, T. Numao, A cylindrical drift chamber for the measurement of K+→π+ νν , IEEE Trans. Nucl. Sci, 35, 460-463 (1988)

C. L. Woody, Aging effects in wire chambers operated at low pressure with TMAE and its effect on the use of BaF2 TMAE calorimetry at the SSC, Proc., Workshop on Radiation Effects at the SSC, Berkeley,CA., Ed. M.GGilchriese, pp. 207-14

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rget for a rare kaon IL., Nov.

J. S. Frank and R. C. Strand, Construction and performance of a plastic scintillating fiber ta decay experiment, Proc. Workshop on Scintillating Fiber Detector Development for the SSC, Batavia, 14-16, 1988, pp. 361-382.

M. Atiya, M. Ito, J. Haggerty, C. Ng and F. W.Sippach, Waveform digitizing at 500 MHZ, Intern. Conf. on

advanced Technology and Particle Physics, Como, Italy, June 13-17, 1988, Nucl. Instr. Meth., A279, 180-5 (1989)

M.S. Atiya, et al., Search for K +→π + νν , Proc., "Rare Decay Symposium," Vancouver, B.C., Nov. 1988, D. Bryman, J. Ng, T. Numao, and J-M. Poutissou, Editors, World Scientific, Singapore, pp. 61-80, 1989 M.S. Atiya, et al., Search for the rare decay K +→π + νν , Proc., Fourth Family of Quarks and Leptons: Second

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Intern. Symposium, Santa Monica, CA, Feb. 1989, Annals of the Academy of Sciences 578, 202-14 (1989) M.S. Atiya, et al., A search for a light higgs boson in the decay K +→π +H, H→ µ+µ -, Phys. 2177-80 (1989)

.D. Meyers, Brookhaven Experiment 787, the search for K + νν , P Proc., 24th Rencontres de Moroid Session

he rare decay K +→π +

on Electroweak Interactions and Unified Theories, Les Arcs, France, March 5-12, 1989 M.A. Selen, Hunting for the rare decay K +→π +µ+µ- , Princeton University DOE/ER-3072-49, January 1989

M. Atiya, et al., Waveform digitizing at 500 MHZ, IEEE Trans. on Nucl. Sci. 36, 813-7 (1989)

D. S. Akerib, A search for t νν , Princeton University OE/ER-3072-64. January 1989

C. L. Woody, P. W. Levy and J. A. Kierstead, Slow component suppression and radiation damage in doped BaF2

rt

Crystals, IEEE Trans. on Nucl. Sci. 36, 536-42 (1989)

T. Numao, Status and future of the BNL E787 experiment, Proc. Workshop on K-Decay Experiments, KEK Repo89-7, 85 (1989)

M.S. Atiya, et al., Search for the decay K +→π + νν , Phys. Rev. Lett. 64, 21-4 (1990)

+ +

M.S. Atiya, et al., Search for the decay K →π γγ , Phys. Rev. Lett. 65, 1188-91 (1990)

M.S. Atiya, et al., Search for the flavor-changing neutral current decay K +→π +νν , Proc. 15th APS Division of articles and Fields General Meeting, Houston, Texas, Jan. 3-6, 1990

l., Search for the decay K +→π +

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___________________________________________________________________________________________________ Publications

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0-MHZ transient digitizers based on GaAs CCDs, Proc., Symposium on Detector Research nd Development for the Superconducting Supercollider, eds. T. Dombeck, V. Kelly, and G. P. Yost, World

Tbetween particles and nuclei, Nucl. Phys. A527, 727 (1991) D. Bryman, et al., 50aScientific pp 505-507 (1991)

M. S. Atiya, et al., Upper limit on the branching ratio for the decay π o→ νν , Phys. Rev. Lett. 66, 2189-92 1)

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I. H.Chiang and L. Littenberg, CsI R&D, Proc. KEK Workshop on Rare Kaon Decay Physics, Ibaraki-Ken, JapaDec. 1991, T. Shinkawa and S. Sugimoto eds. pp. 303-309, 1992

M.S. Atiya, et al., A detector to search for K +→π + νν . Nucl. Instr. Meth. A321, 129-151 (1992) M.S.Atiya, et al., Search for the decay π 0γ + X. Phys. Rev. Lett. 69, 733-736, (1992)

M. Ito, et al., Search for K

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C. Zein, et al., A high-speed fastbus interface to VME. Real-Time Computing Appl. 1993, 103 (1993)

M.S. Atiya, et al., Search for the decays K +→π + νν and K +→ π +X 0 for 150 < o

xM <250 MeV/c2, Phys. Rev. D48, R1 (1993)

M.S.Atiya, et al., An improved search for the decay, K →π + + νν . Phys. Rev. Lett. 70, 2521 (1993)

M. Burke, et al., E787 data acquisition software architecture, Conf. Record of the 8th Conf. on Real-Time Computer Appl

ications in Nuclear, Particle, and Plasma Physics, Vancouver, June 8-10,1993, eds. D. Axen and R.

Poutissou, pp. 361-4 (1993)

J.S. Frank, Status and future plans for BNL experiment 787 (K +→π + νν ). Proc. of Workshop on Future Directions in Particle and Nucl. Phys. at Multi-GeV Hadron Beam Facilities, D. F. Geesaman, Editor, pp. 421993

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M. Burke, et al., E787 data acquisition software architecture, IEEE Trans. Nucl. Sci., NS-41, 131-4 (1994)

M. M. Ito, Results from BNL E787, a search for K +→π + νν . Proc. 1994 Workshop on Heavy Quarks Physics at Fixed Target, University of Virginia, Charlottesville, VA., October 1994, B. Cox, Editor, pp. 359-364, 1994

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C. Witzig, Recent results on rare kaon decays from BNL E787, Proc. XXIX Rencontre de Moriond, Mar. 1995, Jrân Thanh Vân, Ed., 361-5, (1994) T

M. Kobayashi, et al., Yal03: Ce-Am light pulsers as a gain monitor for undoped CsI detectors in a magnetic fieldNucl. Instr. Meth., A337, 3550-361 (1994) J. Haggerty (for the E787 collaboration), Observation of K + → π +µ+µ -, Proc. Of XVII Intl. Conf. on High Energy Physics, P. J. Bussey and I. G. Knowles, eds., 1341, (1995)

J. Roy, et al., Status of E787, Proc. Intersection between Particle and Nucl. Phys.: Fifth Conf. held in St. Petersburg, Fla., June 1994 ed. S. J. Seestrom, Los Alamos Natl. Laboratory (1995)

73

. A. McPherson, Chasing the rare decay K +→π + νν , R Princeton University PRINCETON/HEP/95-9 Nov. 1995

w CsI (undoped) Endcap Photon veto system for BNL E787: A study of the decay K+→ I-H. Chiang, et al., A neπ+ νν . Proc. of Vth

O.

Intl. Conf. on Calorimetry in High Energy Physics, H. Gordon and D Ruger eds, 103 (1995)

A. Konaka, Status of BNL E787, Proc. 23rd INS Intl. Symposium, Tokyo, Japan, March 1995, S. Sugimoto andHashimoto, Editors, pp. 119-127, 1995 I-H. Chiang, et al., CsI endcap photon detector for K +→ π + νν experiment at BNL, IEEE Trans. Nucl. Sci. vol NS-42, no. 4, pp 394-400, August 1995 S. Adler, et al., Search for the decay K +→π + νν , Phys. Rev. Lett. 76, 1421 (1996)

E. W. Blackmore, D. A. Bryman, Y. Kuno, C. Lim, T. Numao, P. Padley, G. Redlinger, R. Soluk, Central tracking chamber with inflated cathode-strip foils, Nucl. Instr. Meth. A404, pp.295 (1996)

M. Convery (for the E787 collaboration), First measurement of the structure dependent decay K + µ +νγ , Proc.

1996 Annual Mtg. of American Physical Society, Div. of Particles and Fields (DPF ‘96), Minneapolis, MN., A10-15, 1996.

ug.

n S. Adler (for the E787 collaboration), First observation of K +→π +γγ , Proc. of 1996 Annual Mtg. of America

Physical Society, Div. of Particles and Fields (DPF’96), Minneapolis, MN., Aug. 10-15, 1996. T. Shinkawa, BNL E787 search for K +→π + νν , Proc. Workshop on K Physics, Orsay, France, May 30-Ju1996, L. Iconomidou-Fayard, ed., Edition

ne 4, s Frontieres, 389-94 (1997)

S. Kettell (for the E787 collaboration), E787: A search for the rare decay K +→π + νν , Proc. 1996 workshop on

Heavy Quarks Physics at Fixed Target, Rhinefels Castle, St. Goar, Oct. 1996, L. Köpke, Ed., 397 (1997)

se).

T. Komatsubara, Progress of the rare decay experiment 787 at BNL-AGS, High Energy News (Japan), 16, No. 2, 27 (1997) (in Japane

S. Adler, Status report on the search for K +→π + νν and prospects for the search for K oL , Proc. of 16th Intl.

orkshop on Weak InteracW tions and Neutrinos (WIN 97), eds. G. Florillo, V. Palladino, P.Strolin, North-Holland

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(1998), Nucl. Phys. B,Vol. 66, pp.466-8 (1998)

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. Kitching, et al., Observation of th e decay K +→π + νν P , Phys. Rev. Lett. Vol.79, No. 21, 4079-4082, Nov. 24,

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. W. Blackmore, D. A. Bryman, Y. Kuno, C. Lim, T. Numao, P. Padley, G. Redlinger, R. Soluk, Cenral tracking

amber with inflated cathode-strip foils, Nucl. Instr. Meth. A 404, 394-404 (1997)

S. Adler, et al., Upper limit on the decay K+→ e+νµ +µ -, Phys. Rev. D58, 012003 (1998)

ng, Evidence of K →π ν⎯ν : the BNL E787 1995 result (how did we get here), Proc. Intl. KEK orkshop on Kaon, Muon, Neutrino Physics and Future, KEK, Oct. 1997, ed. Y. Kuno, KEK Proc. 97-124, 79

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, Performance of fine mesh photomultiplyer tubes designed for an undoped CsI endcap hoton detector, Nucl. Instr. Meth. A 404, 315 (1998)

trino

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sics at er and at the Front End of a Muon Collider, AIP Conf. Proc. 435, Eds. S.H.Geer and R. Raja,

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ns, Proc. of the Workshop on Physics at the First Muon Collider and at the Front End of a Muon Collider, AIP Conf. Proc. 435, Eds. S.H.Geer and R. Raja, pp 121-

T. Komatsubara, Status of rare kaon decay experiments, Proc. Yukawa Inst. of Theoretical Physics (YITP)

T. Komatsubara, Rare kaon decay experiment, Intl. Workshop on Fermion Masses and CP Violation, Mar 5-6,

/b, Proc. Intl. Workshop on JHF Science, Mar 1998, eds. J. Chiba, M. Furusaka, H. Miyatake nd S. Sawada, KEK Proc. 98-5, JHF 98-2, I-149-I-180 (1998)

ion decay, Proc. 18th Intl. Conf. Physics in Collision, INFN Frascati, June 17-19, 1998, ed. S. Biano, A. Calcaterra, P. deSimone and F. L. Fabbri, pp 317-334 (1998)

ector for BNL-E787, Proc. of Workshop on Scintillation Crystals, August, 1997, EK, Tsukuba, Japan, Proceedings 97-9 (1997)

cap photon detector, Nucl. Instr. Meth. A404, 315 (1998)

S. Kettell, Evidence for K+→π +ν⎯ν and search for T-viol

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. Adler, et al, Further search for the decay K+ →π +ν⎯ν, Phy. Rev. Lett. 84, pp.3768-3770 (2000)

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M. V. Diwan, Observation of the decay K+ →π +ν⎯ν, Proc. Am. Phys. Soc. Mtg. of the Division of Particles and

re decay of K + →π +π 0ν⎯ν, SUSB Ph.D. thesis, May 2000.

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J. A. MacDonald, Future stopped K+→π +ν⎯ν experiment, Proc. Intl. KEK Workshop on Kaon, Muon, NeuPhysics and Futur

D. Bryman, Summary, Proc. Intl. KEK e L. Littenberg, Can BNL-style studies of K→ π ν⎯ν be pushed at the FEMC?, Proc. of the Workshop on Phythe First Muon Collid

G. Guttierez and L. Littenberg, Physics with low energy hadro

138 (1998)

worksho on Flavor Physics, Jan. 28-30, 1998, Soryushiron Kenkyu (Kyoto) 98, C29-C37 (1998)

1998, Hiroshima, eds. T. Morozumi and T. Mura, Hiroshima U., pp 140-155 (1998) Y. Kuno and L. Littenberg, Particle physics with kaons, muons and neutrinos, - summary of the JHF K-arena working groups 1aa L. Littenberg, Rare kaon, muon and p

T. Sato, et al., The end cap detK T. Komatsubara, et al., Performance of fine mesh photomultiplier tubes designed for an undoped CsI end

ation in Kmu3, Proc. Workshop on Heavy Quarks at

Fixed Target; FNAL, Oct. 12, 1998, ed. H. Cheung and J. Butler, pp 421-430 (1998) M. V. Diwan, Observation of the decay K →π ν⎯ν , Proc. APS meeting of Div. Of Particles and Fields (DPF99), Los Angeles, Calif. Jan. 5-9, 1999, e-Print archive hep-ex/9903026 (1999) T. Komatsubara, Status of the study of the rare decay K →π ν⎯ν at BNL, Proc. 17 Intl. Workshop on Weak Interactions and Neutrinos (WIN99), Eds. C. A. Dominguez and R. D. Viollier, World Scientific, ISBN 981-02-4082-1, pp535-539 (2000) S S. Adler, et al., Measurement of structure dependent K →µ ν γ, Phys. Rev. Lett. 85, pp.2256-2259 (2000)

Fields (DPF 99), Los Angeles, Calif., Jan. 5-9, 1999. e-Print Archive: hep-ex/9903026. E. F. Ng, The search for the ra

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hiang, C.J. Kost, K.K. Li, J.A. Macdonald, T. akano, Optics design and performance of LESB3, a two-stage separated 800 MeV/c kano beamline, Nucl. Inst.

. Adler, et al., Measurement of direct photon emission in K+ →π +π 0γ decay, Phys. Rev. Lett. in press (2000)

th Conf. on Intersections Between article and Nucl. Phys. (IPANP 2000), Quebec City, Quebec, Canada, May 22-28,. 2000, e-Print Archive: hep-

00. e-Print Archive: hep-ex/0009047.

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S. Adler, Search for the decay K+ →π +π 0ν⎯ν, submitted to Phys. Rev. D, 63, 032004 (2001) S. Adler et al, Measurement of structure-dependent K+→µ +νµ γ decay, Phys. Rev. Lett. 85, 11 pp. 2256-2259, September 11, 2000. J.J. Szymanski, Weak decay of Λ 0 hypernuclei, Proc. of the 2nd Conf. on the Intersections between Particle and Nucl. Phys., Lake Louise, Alberta, Canada, May 24 M. Athanas, et al., , Weak decay of light hypernuclei, invited talk by R.A. Schumacher at the JSPS-NSF Joint Seminar on "Hyperon Nucleon Interactions", Maui, HI, October, 1993.

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D.E. Alburger, Removal of phototubes from Pb-glass detectors, Rev. Sci. Instrum. 58, 143 (1987)

moval of phototubes from Pb-glass detectors II, Rev. Sci. Instrum. 58, 1761 (1987)

von der Schmitt, and S. Kaufman, Distributed data acquisition for BNL 802 I: e front end, Fifth Conf. on Real-Time Computer Applications in Nuclear, Particle and Plasma Physics, San

Real-Time Computer Applications in Nuclear, Particle, and Plasma Physics, San Francisco, CA, May 11-15, 1987, IEEE

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Publications___________________________________

P.H. Pil + +

P. H. Pile, π +,K A

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Collaboration) A. Etkin, K.J. Foley, R.W. Hackenburg, R.S. Longacre, W.A.Love,

dansky, D. Corcoran, J.W. Kruk, H.E. Miettinen, G.S.

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W.A. Love (for the E810 Collaboration: B.E. Bonner, J.A. Buchanan, C.S. Chan, C.N. Chiou, J.M. Clement,

uk,

Tedaldi, E.D. Platner, J.B. Roberts, A.C. Saulys, K. Zhao. Silicon ion inter-actions measured in the E810 TPC at .

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W.A. Love (for the E810 Collaboration) B.E. Bonner, J.A. Buchanan, C.S. Chan, C.N. Chiou, J.MCLongacre, W.A. Love, L. Madansky, H.E. Miettinen, T.W. Morris, G.S. Mutchler, M. Nessi, F. Nessi-Tedaldi, E.D. Platner, J.B. Roberts, and A.C. Saulys). Workshoppp. 27-37 (BNL, 1990)

E.D. Platner (for the E810T.W. Morris, E.D. Platner, A.C. Saulys, S.J. Lindenbaum, C.S. Chan, M.A. Kramer, T.J. Hallman, L. MaB.E. Bonner, J.A. Buchanan, C.N. Chiou, J.M. Clement, M.MPhysics at AGS, Brookhaven National Laboratory, March 5-7, 1990, Ole Hansen, Editor, pp. 227-239 (BNL

0 0 oT sAGS. Proc. of the Workshop on Heavy Ion Physics at AGS, Brookhaven National Lab., March 5-7, 1990, Hansen ed., pp. 182-192 (BNL 1990)

S.J. Lindenbaum, R.S. Longacre, W.A. Love, L. Madansky, T.W. Morris, G. S. Mutchler, E. Nessi-Tedaldi, M. Nessi, E.D. Platner, J.B. Roberts, A.C. Saulys, and K. Zhao). Studies of neutral Vee production by Si ions at A GeV/c in Au and C

of Japan and co-sponsoring associations).

M.D. Corcoran, S.E. Eiseman, A. Etkin, K.J. Foley, R.W. Hackenburg, T.J. Hallman, M.A. Kramer, J.W. KrS.J. Lindenbaum, R.S. Longacre, W.A. Love, L. Madansky, T.W. Morris, G.S. Mutchler, M. Nessi, F. Nessi-

the AGS. Proc. of QUARK MATTER 90, Menton, France, May 7-11, 1990, J.P. Blaizot, C. Gerschel, B. Pire, ARomana, Eds. Nucl. Phys. A525, 601c-604c (1991) MMATTER 90, Menton, France, May 7-11, 1990, J.P. Blaizot, C. Gerschel, B. Pire, A. Romana, Eds. Nucl. PhysA525, 601c-604c (199

S.E. Eiseman, A. Etkin, K.J. Foley, R.W. Hackenburg, R.S. Longacre, W.A. Love, T.W. Morris, E.D. Platner, A.C. Saulys, S.J. Lindenbaum, C.S. Chan, M.A. Kramer, K. Zhao, T.J. Hallman, L. MadansBproduction in ion collisions at the AGS. High Engery Nuclear Collisions & Quark Gluon Plasma. M.Biyajima, H. Enyo, TQ S.J. Lindenbaum (for the E-810 Collaboration: D.L. Adams, S. Ahmad, B.E. Bonner, J.A. Buchanan, C.S.

Hallman, M.A. Kramer, S.J. Lindenbaum, R.S. Longacre, W.A. Love, L. Madansky, H.E. Miettinen, T.W. MoG.S. Mutchler, E.D. Platner, J.B. Roberts, A.C. Saulys, J. Skeens, K. Zhao, Y. Zhu. Results on search for with a TPC magnetic spe

Feb. 2, 1991). W. Bauer and J. Kapusta, Eds. pp. 68-78 (World Scientific, 1991)

HIC Detector R&D, Brookhaven National Laboratory, October 10-11, 1991. Y. Makdisi and A.J. Stevens, Eds. pp. 207-213 (B

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al., A silicon multiplicity detector system for an experiment on the interaction of antiprotons with nuclei at BNL. Conf. Record of the 1991 IEEE Nuclear Science Symposium and Medical Imaging Conf., Nov. 2-

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M. Golde, G. Singh, P. L. Jain, and A. Mukhopadhyay, Z., Characteristics of He-nucleus interctions at relativistic

. Singh, P. L. Jain and M. S. El-Nagdy, Intermittency analysis in nuclear multifragmentation, Europhys. Lett. 21,

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Y. D. He and P. B. Price, Electromagnetic production of hyperfragments in ultrarelativistic heavy-ion collisionsNucl. Phys. A 585, pp. 363c-364c (1995)

YProc. of 24th Intl. Cosmic Ray Conf., Rome, 1, pp. 64-67 (1995)

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K. Yamamoto (for the 885 collaboration), H-dibaryon search via the (K-, K+) reaction using a diamond target, Proc. of Intl. Conf. On Hypernuclei and Strange Particles, Nucl. Phys. A639, pp. 371-374 (1998)

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B.M.K. Nefkens, Baryon spectroscopy with eta mesons, Proc. of Fifth Intl. Symposium on Meson-Nucleon Physics and the Structure of the Nucleo

M. Clajus for the E890/E909 collaboration, Eta production in pion interactions with protons and deuterons, Procof Sixth1 B.M.K. Nefkens, What is so special about eta-meson physics, PS A. Marusi, A new test of charge symmetry in eta production on deuterium, Ph.D. dissertation, U. of Zagreb

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A. J. Keane, Measurement of the charge spectrum of ultra-heavy galactic cosmic rays with Z>70, PhD Thesis, University College, Dublin, Natl. University of Ireland, (1997)

A. J. Keane, A. Thompson, D. O’Sullivan, L. O’C. Drury and K-P. Wenzel, A charge spectrum of ultra-heavy cosmic ray nuclei, including actinides, detected on the LDEF, Proc. 25th Intl. Cosmic Ray Conf., Durban, Vol 3

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B. M. K. Nefkens, N* physics at the AGV V. Abaev and B. M. K. Nefkens, S-wave resonance coupled-channe

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K. Craig, et al., (for the Crystal Ball collaboration) Dynamics of the π - p→π0π0n reactPhys. Rev. Lett. 91, pp. 102301 (2003)

H.M. Staudenmaier, B.M.K. Nefkens, A. Starostin (for Crystal Ball collaboration, Crystal ball results π - interactions on hydrogen anNo. 149, pp. 94-101 (2003)

M.E. Sadler, et al., (for the Crystal Ball collaboration), Differential cross section of the cthe π p→π n in the momentum range from 148 to 323 MeV/c, submitted to Phys. Rev. C. (2003)

Workshop on N* Physics. T-Lee and W. Roberts ed., World Scientific, 186 (1996)

pp. 055205 (2001)

D.M. Manley et al., (for Crystal Ball collaboration), Properties of the Λ (1670)½- resonance, Phys. Rev. Lettpp. 231101 (2001)

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stal Ball collaboration), New results on baryon spectroscopy with the crystal ball

ectrometer, Proc. IX Intl. Conf. on Hadron Spectorscopy (HADRON 2001), Protvino, Russian, D. Amelin and

M. Borgh, et al., Search for K - p→π0π0π0Λ from threshold to pk- = 750 MeV/c, Phys. Rev. C68, pp. 015206

. Prakhov, et al., (for Crystal Ball collaboration), Measurement of K - p→π0π0Λ in the momentum range 514-750

916

g

etroit, Mich., (1996)

, Fla., (1997)

. ucl. Phys., Big Sky, MT., (1997)

a, Japan, (1997).

dynamics of heavy ion collisions, Proc. of 13th Intl. Conf. on Ultra-Relativistic Nucleus-Nucleus collisions, Tsukuba, Japan, (1997)

3 M. V. Diwan, et al., Search for T-violation in KMU3 decay, presented by Hong Ma, Div. Of Particles and Fields, APS 1996 Divisional Mtg., Minneapolis, MN., Aug. 10-15, 1996. R. Adair, et al., Muon polarization working group report, AGS2000 Workshop, Workshop on AGS Experiment for the 21st Century, May 13-17, 1996, BNL. M. Diwan, Search for T-violation in Kmu3 decay, Intl. Workshop on Kaon Muon and Neutrino Physics and the Future, KEK, October 31 - November 1, 1997.

24 D. W. Hertzog, P. T. Debevec, R. A. Eisenstein, M. A. Graham, S. A. Hughes, P. E. Reimer, and R. L. Tayloe, A high resolution lead/scintillating fiber electromagnetic calorimeter, University of Illinois at Urbana-Champaign, Nucl. Phys. Laboratory Department of Physics P/90/3/41.

925 Y. Makdisi, et al., Asymmetry in inclusive π +, p production at 22 GeV BNL E925, Proc. of SPIN 98, 13th Intl. Symposum on High Energy SPIN Physics, Sept. 8-12, 1998, Protvino, Russia, pp. 474-476. K.Krueger, et al., Large analyzing power in inclusive π + production at high XF with a 22 GeV/c polarized proton beam, Phys. Lett. B459, pp. 412 (1999) C.E. Allgower, et al., “Measurement of analyzing powers of π + and π - produced on a hydrogen and carbon target with a 22 GeV incident polarized proton beam”, Phys. Ev. D 65, 092008 (2002).

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D.M. Manley et al., (for Crythsp

A.M. Zaitsev, eds., AIP Conf. Proceedings 619, pp. 693 (2002).

(2003)

SMeV/c, submitted to Phys. Rev. Lett (2003

Y. D. He, P. B. Price, and M. Solarz, Charge-changing cross sections for gold projectile at ~ 4 A GeV in various targets (1997).

917 C. Ogilvie (for the E917 collaboration), E917 collaboration: probing the dynamics of HI collisions plus searchinfor the QGP, Proc. Of HIPAGS 96, WSU-NP-96-16, C. A. Pruneau, ed., D

J. Chang (for the E917 collaboration), Multiplicity measurements at various AGS beam energies, Proc. 13th

Winter Workshop on Nuclear dynamics, Marathon

J. Dunlop (for the E917 collaboration) An excitation function of particle production at the AGS, Proc. of 6th confon Intersections of Particle and N

B. Back, et al., A beam vertex detector using scintillating fibers, accepted for publication in Nucl. Instr. Meth A, (1997)

C. Ogilvie (for the E917 collaboration), E802/859/866/917 report, Proc. of 13th Intl. Conf. on Ultra-Relativistic Nucleus-Nucleus Collisions, Tsukub

R. Set and J. Dunlop (for the E917 collaboration), An excitation function at the AGS: Probing the

92

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Publications __________________________________________________________________________________________________

H. Spinka, et al., AN for inclusive π + production at 21.6 GeV/c from C and LH2, Proc. SPIN 2000, 14th Intl. SPIN Physics Symposium, Oct. 16-21, 2000, Osaka, Japan.

25 J.W. Glenn, et al., Micro-bunching the AGS slow external beam, presented at PAC, Vancouver, Canada, May 12-16, 1997

A. Konaka, K → π 0 ν⎯ν at the AGS, presented at the Intl. Workshop on CP Violation in K, Dec. 18-19, 1998,

KEK, Tanashi, Tokyo, Japan (1998) Y. Kudenko, et al., Extruded plastic counters with WLS fiber readout, Nucl. Inst. Meth .A 469, pp. 340-6 (2000)

D. Bryman and L. Littenberg, Prospects for measuring K+ →π+ν⎯ν and K →π0ν⎯ν at BNL, Nucl. Phys. B, 99B, pp. 61-69 (2001)

J.W. Glenn, et al., Micro-bunching the AGS slow extracted beam for rare kaon decay search, Proc. 2001 PAC, Chicago, IL., (2001) H. Morri, et al., Quenching effects in nitrogen gas scintillation, submitted to Nucl. Inst. Meth. A. (2003)

926 B. Nefkens, Baryon experiments and chiral symmetry, Baryons 95 Conf., World Scientific, 177 (1995)

M. Sadler, et al., A new program in baryon and hyperon spectroscopy with the crystal ball, Proc. Of Baryons Conf., World Scientific, 295 (1995) B. Nefkens, Baryon spectroscopoy with chiral symmetry, Proc. Intl. Workshop on Physics with 50 GeV PS., JHP-supplement-18, 372 (1995)

B. Nefkens, N* physics at the AGS with the crystal ball multiphoton spectrometer, Proc. of 4th CEBAF/INT workshop on N* Physics, World Scientific, 186 (1996)

V. Abaev and B.M.K. Nefkens, S-wave resonance coupled-channel approach to the reactions π + p→η+n and K+p→η+Λ, and a determination of the η-n and ηΛλ scattering lengths, Phys. Rev. C53, pp. 385 (1996)

A. B. Starostin, Hadron spectroscopy with the crystal ball at the AGS, 7th Intl. Conf. On Hadron Spectroscopy, APS Conf. Proc. #423, pp. 543 (1997)

B. Tippens, Hadron spectroscopy with the crystal ball at the AGS, 7th Intl. Conf. On Hadron Spectroscopy, APS Conf. Proc. #423, pp. 646 (1997) M. Sadler, The crystal ball multiphoton spectrometer: A new facilty for baryon spectroscopy, Proc. 7th Intl. Symposium on Meson-Nucleon Physics and the Structure of the Nucleon, Pi-N Newsletter #13, pp. 123 (1997)

B. Nefkens, The crystal ball baryon-resonance program, Proc. of GW/Jlab Workshop on N* Physics, Pi-N Newsletter #14, pp. 150 (1998)

B. Nefkens, New crystal ball results from BNL, Proc. of GW/Jlab Workshop on N* Physics, Pi-N Newsletter #14, pp. 90 (1998) B. Nefkens, et al., Hadron physics with the crystal ball, MENU’99 Pi-N Newsletter #15, pp. 78 (1999) M. Kozlenko, Near-threshold Eta-Meson production of the reaction Pi-P→Eta using the crystal ball detector, Acta Physica Polonica B, Vol. 31, pp. 2239 (2000)

B. Nefkens, et al., New results on meson physics with the crystal ball detector, Acta Physica PolonicaB, Vol. 31, pp. 2669 (2000)

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Publications ___________________________________________________________________________________________________

B. Nefkens, New tests of the chiral perturbation theory in Eta decays using the crystal ball, World Scientific (2000)

S. Prakhov, et al., Search fo rthe CP forbidden decay η→4π0, Phys. Rev. Lett. 84, pp. 4802 (2000)

A. Starostin, et al., Measurement of π0π0 production in nuclear medium by π- at 0.408 GeV/c, Phys. Rev. Lett. 85, pp. 5539 (2000)

T. D. Stanislaus, et al., Measurement of neutron detection efficiencies in Na1 using the crystal ball detector, Nucl. Inst. Meth.A 462, pp. 463 (2001)

A. Starostin, et al., Measurement of K-p→ηΛ near threshold, Phys. Rev. C64, pp. 055205 (2001)

W. B. Tippens, et al., Determination of the quadratic slope parameter in η→3π0 decay, Phys. Rev. Lett. 87, pp. 192001 (2001)

D. M. Manley, et al., Properties of the 1670 delta resonance, Phys. Rev. Lett. 88, pp. 231101 (2001) 929 S. Ajimura, et al., Observation of Spin-Orbit Splitting in Λ Single-Particle States, Phys. Rev. Lett.86 (19) May 7,

2001. 930 H. Tamura, et al., High-resolution hypernuclear gamma-ray spectroscopy, Nucl. Phys. A663, pp 481c-484cm

(2000)

K. Tanida, et al., (for KEK E419 and BNL E930 collaborations), Hypernuclear gamma-ray spectroscopy experiments with germanium detectors”, Proc. APCTP Workshop on Strangeness Nucl. Phys. (SNP’99), Seoul, Korea, Feb. 19-22, 1999, Eds. I.T. Cheon, S.W. Hong and T. Motoba, pp.98 (2000)

H. Tamura, et al., (for KEK E419 and BNL E930 collaborations) High resolution gamma-ray spectroscopy of 7Li and 9Be, Few-Body Systems Suppl. 12 pp. 342 (2000) K.Tanida, et al., (for KEK E419 and BNL E930 collaborations), Lambda-N spin dependent interactions studied by gamma-ray spectroscopy of hypernclei, Proc. RCNP-TMU Symposium on Spins in Nuclear and Hadronic Reactions, Oct. 26-28, 1999, Tokyo Metro. U. (2000) K. Tanida et al., (for KEK E419 and BNL E930 collaborations) “High-resolution gamma-ray spectroscopy of hypernuclei with germanium detectors”, Proc. 16th Intl. Conf. on Few Body Problems, March 2000, Taipei; Nucl. Phys. A684, 560c (2001) H. Tamura, et al., (for KEK E419 and BNL E930 collaborations) “Hypernuclear gamma spectroscopy – Recent results with HYPERBALL” Proc. Intl. Conf. on Structure of the Nucleus at the Dawn of the Century, May-June, 2000, Bologna, Italy (in press). H. Tamura, HyperNucl. Phys. with hadronic beams”, Proc. Workshop on HyperNucl. Phys. with Hadronic probes, Hampton, England, December 1999 (in press).

H.Tanida, et al., High-rsolution gamma-ray spectroscopy of 7-Lamda-Li, Proc. Int. Conf. of Hypernuclear and Strange Particle Physics, (HYP2000), Torino, Oct. 2000, Nucl. Phyas. A691, 115c-118c (2001) H. Akikawa, et al (for E930 collaboration), “Gamma ray spectroscopy of Lambda Be”, Proc. 7th Instl. Conf. on

Hypernuclear and Strange Particle Physics, Torino, Oct. 23-27, 2000, Nucl Phys. A. 691, 134c-137c (2001) H.Tamura, “High resolution spectroscopy of Lambda hypernuclei: present status and perspectives”, Proc. 7th Intl. Conf. of Hypernuclear and Strange Particle Physics, Torino, Oct. 23-27, 2000, Nucl Phys. A. 691, 76c-84c (2001)

125

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H. Tamura, Impurity Nucl. Phys.-Hypernuclear gamma spectroscopy and future plans for neutron-rich hypernucleai, Proc. Intl. Symp. on Perspectives in Physics with Radioactive Isotope Beams (RIB00), Hayama, Nov. 2000. M.Akikawa, et al., Hypernuclear find structure in Be”, Phys. Rev. Lett. 88, pp.082501-4, (2002) R. E. Chrien, High resolution γ-ray spectroscopoy at BNL”, 11th Intl. Symp. on Capture Gamma-Ray Spectroscopy, Prague, September (2002) H. Tamura, Hypernuclear structure in hypernuclei”, Proc. 8th Intl. Conf. on Hypernuclei and Strange Particle Physics, HYP2003, Jlab, Newport News, Va., (2003)

M.Ukai, “Observation of hypernuclear fine structure in O”, HYP2003, October, 2003. Y. Miura, “γ spectroscopy o B”, HYP2003, October 2003. H. Tamura, et al., “Gamma spectroscopy of P-Shell hypernclei and ΛN spin-dependent interactions-report of BNL 930”, Modern Physics Lett.A, 18, 2-26, pp. 85-94 (2003).

J. Sasao, et al., “ Li ground-state spin determined by the yield of γ-rays subsequent to weak decay”, Phys. Lett.

B, 579, pp. 258-264 (2004). Y. Miura, et al., “A recent experiment with hyperball”, Acta Physica Poloonica B, 35, 3 (2004).

932 C. Ankenbrandt, et al., Bunching near transition in the AGS, Phys. Rev. ST Accel Beams 1, 030101 (1998) 933 K.L. Alrick, et al., Some preliminary results from experiment 933, LA-UR-00-4796 (2002)

938 H. Nakashima, et al., Measurement of incident proton beam characteristics for AGS spallation target experiment,

Proc. of 14th Intl. Collaboration on Advanced neutron sources, June 14-19, 1998, Starved Rock Lodge, Utica, Illinois.

H. Takada, et al., Measurement of reaction rate distributions on a mercury target bombarded wit high energy

protons, Proc. of 14th Intl. Collboraiton on Advanced Neutron sources, June 14-19, 1998, Utica, Illinois. M. Futakawa, K. Kikuchi, H. Conrad (for 938 collaboration) Measurement of pressure wave in mercury target,

Proc. of 14th Intl. Collaboration on Advanced neutron sources, June 14-19, 1998, Starved Rock Lodge, Utica, Illinois.

R. D. Neef (for 938 collaboration) Spallation neutron target experiments at the AGS-BNL, Nuclear Physics Spring Meeting, Bochum, Germany, March 16-20, 1998, ISSN 0420-0195.

R. D. Neef, Radiation physikcs experiments to develop the target-moderator-reflector system for ESS, Proc. of 14th Intl. Collaboration on Advanced neutron sources, June 14-19, 1998, Starved Rock Lodge, Utica, Illinois.

D. Filges, R. D. Neef and H. Schaal, Radiation physics and nuclear assessment of the target station of the European spallation environments, SARE-4, Sept. 14-15, 1998, Knoxville, TN.

E. Filges, R. D. Neef and G. Sterzenbach, Experimental validation of nuclear models for the optimiaation of the ESS-target system, Second Intl. Topical Conf. on Nuclear Applications of Accelerator Technology, Sept. 20-23, 1998, Gatlinburg, TN. A. Jerde and D. C. Glasgow, Neutron activation by neutrons produced via proton-induced spallation in a liquid-mercury target: measurements and uncertainties, Journal of Radioanalytical and Nuclear Chemistry.

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Publications ___________________________________________________________________________________________________ 939 G. A. Greene, C.C. Finfrock, C.L.Snead, Jr., A.L. Hanson, M.M. Murray, Energy deposition in a thin copper

target downstream and off-axis of a proton-radiography target, Nuclear Inst. Meth. B 197, 247-258 (2002)

G.L. Morgan, K.R. Alrick, et al., Total cross sections for the production of 22Na and 24 Na in p ton-inducedreacitons on 27A1 from 0.40 to 22.4 GeV, Nuclear Inst. and Methods in Physics B 211, 297-304 (2003)

lzon, Impr vationer School T

. Molzon, Phys muons at the front end of the muon collider, Proc. Workshop on Physiirst Muon C Collider (1998)

achman, The , Proc. Workshop on Physics at the First Muon Collider and at the Fre Muon Coll

J. Liu, MECO orkshop on Physics at the First Muon Collider andnd of the M

baev, M ata, Proc. Workshop on Physics at tollider an )

lli, µ→e c d prospects, Proc. Workshop on Physics at the First Muon Collider and at End of the M

olzon, Sear er violation with MECO at BNL, Proc. Intl. Symyo )

reene, C. ommer, M.R. James, Radiatat liquid h 31 (1999)

rla, T. reen, Multiscale modeliradiation damage: applicatons to damage production by GeV proton irradiation in Cu and W, and pulsed irradiation effets in Cu and Fe, J. Nucl. Mater. 296, pp. 90-100 (2001)

G.A. Greene, C.L. Snead, Jr., C.C. Finfrock, A.L. Hanson, M.R. James, W.F. Sommer, L.S. Waters, Direct measurements of displacement cross sectons in copper and tungsten by 1.10 GeV and 1.94 GeV protons at 4.7K, Trans. Amer. Nucl. Soc., AccApp 03, San Diego, CA., (2003)

G.A. Greene, C.L. Snead, Jr., C.C. Finfrock, A.L. Hanson, W.F.Sommer, M.R. James, L.S. Water, Radiation-

induced resistivity due to defects generated by 1.94 GeV and 1.10 GeV proton irradiation on copper and tungsten at 4.7K, J. Nucl. Mater. (2004)

945B G.A. Greene, C.C. Finfrock, A.L. Hanson, M.M. Murray, Energy deposition in a thin copper target downstream

and off-axis of a proton-radiography target, BNL Formal Report 52668 (2002) G.A. Greene, C.C. Finfrock, Measurements of the specific heat of high-purity copper at temperatures below 8 K

bya modified pulse-heating technique, Int. J. Experimental Thermal and Fluid Science, 27 (1), pp. 111-119 (2002)

G.A. Greene, C.C. Finfrock, C.L. Snead, Jr. A.O. Hanson, M.M. Murray, Energy deposition in a thin copper target downstream and off-axis of a proton-radiography target, Nuclear Inst. and Meth. In Physics Research-B, 197 (3/4), pp. 247-258 (2002)

949 J. MacDonald, Future stopped K+→π+νν experiment, Intl. Workshop on Kaon, Muon and Neutrinoo Physics and

the Future at KEK, Tsukuba, Japan, Oct. 31 – Nov. 1, (1997)

ro

. Mo , in Muon Progresses, Proc. of 1997 SL940 W oved tests of muon and electron number conser AC

Summ opical Conf. 1998.

W ics with low energy cs at the F ollider and the Front End of the Muon M.B MECO muon beam ont End of th ider (1998)

aT. physics background studies, Proc. W t the

Front E uon Collider (1998)

R. Djilki ECO muon yield simulation using experimental d he First Muon C d at the Front End of the Muon Collider (1998 J. Scu onversion status an t the Fron uon Collider (1998)

W. M ch for muon and electron lepton numb posium on

to, Italy (1998Lepton and Bar n Number Violation, Tren

ion damag945A G.A. G C. Finfrock, C.L. Snead, Jr., A.L. Hanson, W.F. S e in GeV protons, BNL Report 669metals elium temperature by

M.J. Catu Diaz de la Rubia, M. Victoria, R.K. Corzine, M.R. James, G.A. G ng of

127

Publications ___________________________________________________________________________________________________

G. Redlinger, Evidence and prospects for the rare decay K+→π+νν at BNL, 26th SLAC Summer Inst. on Particle Physics: Gravity-From the hubble lengh to the Planck length (SS198), pp. 505, Stanford, Calif. Aug. 3-14 (1998) S. H. Kettell, Evidence for K+→π+νν, Proc. of the Workshop on Heavy Quarks at Fixed Target (HQ98), FNAL pp. 421 AIP Proc., Vol. 459, (1998 T. Shinkawa, Search for K+→π+νν below Kp2 at BNL E949, Proc. Intl. Workshop on CP Violation in K, Tokyo, pp. 137 Eds. S. Sugimoto and T. Yamanaka, Japan, Dec. 18-19 (1998). S. H. Kettell, Evidence for K+→π+νν, Proc. Intl. Workshop on CP Violation in K, pp. 75 Eds. S. Sugimoto and T. Yamanaka, Japan, Dec. 18-19 (1998) L. Littenberg, BNL future plans, Proc. Intl. KEK Workshop on kaon, Muon, Neutrino Physics and Future, KEK Proc. 97-124, JHF-97-8, 27, eds. Y. Kuno and T. Shinkawa (1998)

S. Kettell, Rare and forbidden kaon decays at the AGS, Proc. Summer Inst. on Part. Physics, eds. A. Breaux, J. Chan, L. DePorcel and L. Dixon, SLAC-R-528, CONF-9708161, UC-414, 305, BNL-65021 (1998)

T. K. Komatsubara (for the collaboration), Status of the study of the rare decay K+→ PI+ neutrino anti-neutrino at BNL, presented at 17th Intl. Workshop on Weak Interactions and Neutrinos (WIN 99) Cape Town, S. Africa, Jan. 24-30, 1999, e-Print Archive: hep-ex/9905014 (1999) M. V.Diwan, Observation of the decay K+→π+νν, Proc. of Division of Particles and Fields Conf. (DPF99), UCLA; hep-ex/9903026, Jan 5-9 (1999) T. K. Komatsubara, Status of the study of the rare decay K+→π+νν at BNL, 7th Intl. Workshop on Weak Interactons and Neutrinos (WIN99), pp. 535, Ed. C.A. Dominguez and R.D. Viollier, hep-ex/9905014, Cape Town, S. Africa, Jan. 24-30, (1999) G. Redlinger, New result on K+→π+νν, Proc. of 1999 Chicago Conf. On Kaon Physics (KAON99), Chicao, IL, pp. 367 Kaon Physics, June 21-26 (1999) S. Kettell, Rare kaon decays, Proc. of 3rd Intl. Conf. On B Physics and CP Violation (BCONF99), Taipei, Taiwan, eds. H.Y. Cheng and W.S. Hou; hep-ex/0002011, Dec. 3-7, (1999) L. S. Littenberg and Y. G. Kudenko, Rare kaon decays, Proc. of 15th Intl. Conf. On Particle and Nuclei (PANIC99), Uppsala, Sweden, June 10-16, 1999; Nucl. Phys. A663, pp. 132-146 (2000) H. Littenberg, Rare kaon decays, Proc. 35th Rencontres de Moriond, Les Arcs, France, ed. J. Tran Thanh Van, March 11-18, (2000) T. Numao, Rare K decay, Intl. Conf. On Symmetries in Subatomics Physics (ICSSP00) Adelaide, AIP Conf. Proc. 539 333, hep/ex/0010039, March 18, (2000) S. H. Kettell, Rare kaon decay experiments, Proc. of Workshop on Strange Quarks in Hadrons, Nuclei and nuclear Matters, Athens, Ohio, pp.13, Ed. K. Hicks; hep/ex/008012, May 12-13 (2000) S. H. Kettell, Future kaon programs at BNL and FNAL, 7th Conf. On Intersections of Particle and Nucleaer Physics (CIPANP00), Quebec City, Canada, May 22-28, 2000; pp. 858 Eds. W. J. Marciano and Z. Parsa; AIP Conf. Proc. 549, pp. 858-863, hep-ex/0008077 (2000)

D. A. Bryman and L. S. Littenberg, Prospects for measuring K+→π+νν and KL→π0νν at BNL, Proc. of Intl. Conf. On CP Violations Physics (CP01) Ferrara, Italy, Sept. 18-22, 2000; Nucl. Phys. B99 61 (2001) T. K. Komatsubara, Exotic search at the BNL E787 – E949: Search for the rare decay K+→π+γ, Kaon Decay Workshop for Young physicists, Tsukuba, Japan, pp. 85, Eds. S. Sugimoto and T. Yamanaka, Feb. 14-16 (2001)

128

Publications ___________________________________________________________________________________________________

T. K. Komatsubara, Stopped kaon experiment for K+→π+νν: from E787 to E949 and the future, Kaon Decay Workshop for Young Physicists, Tsukuba, Japan, pp. 115, Eds. S. Sugimoto and T. Yamanaka, Feb. 14-16 (2001) T. Nomura, Gain monitoring system using LEDs (BNL-E949), Kaon Decay Workshop for Young Physicists, Tsukuba, Japan, pp. 313, Eds. S. Sugimoto and T. Yamanaka, Feb. 14-16 (2001) T. Yoshioka, New programmable trigger board and mean timer modules for BNL-E949 experiment, Kaon Decay Workshop for Young Physicists, Tsukuba, Japan, pp. 319, Eds. S. Sugimoto and T. Yamanaka, Feb. 14-16 (2001) N. Nomachi, Trigger logic using PLD, Kaon Decay Workshop for Young Physicists, Tsukuba, Japan, pp. 325, Eds. S. Sugimoto and T. Yamanaka, Feb. 14-16 (2001).

D. A. Bryman, Prospects for measuring K+→π+νν and KL→π0νν at BNL, Proc. of 15th Les Rencontres De Physique De La Vallee D’Aoste: Results and Perspective n Particle Physics (LaThuile01), March 4-10, 2001 pp. 593 Ed. M. Greco, Frascati Physics Series, Vol. 22 (2001) L. S. Littenberg, Rare kaon decays, Proc. Kaon 2001 Intl. Conf. On CP Violation (KAON01) Pisa, Italy, June 12-17, 2001, Eds. F. Costantini, eta l, Frascati Physics Series, Vol. 26 (2001)

N. Muramatsu, Results and prospects from BNL E787/E949, Proc. Of Kaon 2001 Intl. Conf. On CP Violation (KAON01) Pisa, Italy, June 12-17, 2001; Eds. F. Costantini, et al., Frascati Physics Series, Vol. 26 (2001).

T. K. Komatsubara, Kaon rare decays, Proc. of 21st Physics in Collision Conf. (PIC01), Seoul, Japan, June 28-30, 2001; pp. 14 (2001)

L. S. Littenberg, Rare K decay: Results and prospects, Proc. of 9th Intl. Symp. on Heavy Flavor Physics (HF9) Pasadena, Ca., Sept. 10-13, 2001; pp. 89, Eds. A. Ryd and F. Porter, AIP Conf. Proc. Vol. 618; hep-ex/0201026 (2001) S. H. Kettell, Kaon physics at BNL, Proc. of 5th KEK Topical Conf. On Frontiers in Flavor Physics (KEKTC5), KEK, Tsukuba, Japan, Nov. 20-22, 2001, Eds. S. Hashimoto and T.K. Komatsubara, 232; hep-ex/0205029 (2001) D. E. Jaffe, K→πνν, Proc. of First Workshop on the CKM Unitarity Triangle (CKM02) CERN, Feb. 13-16, 2002; Eds. M Battaglia, et al., pp. 254; hep-ph/0304132 (2002) M. V. Diwan, Measuring the rare decays K+→π+νν and KL→π0νν, Proc. of 16th Les Rencontres De Physique De La Vallee D’Aoste: Results and Perspective Particle Physics (LaThuile02), Mar. 3-9, 2002; Eds. M. Greco, Frascati Physics Series, Vol. 22; hep-ex/0205089 (2002)

S. Chen, Measurement of rare kaon decay K+→π+νν, Proc. of 37th Rencontres de Moriond on Electroweak Interactions and Unified Theories (Moriond02) Les Arcs, France, Mar. 9-16, 2002, pp. 99, Ed. J. Tran Thanh Van; hep-ex/0205031 (2002)

D. A. Bryman, Rare kaon decays: Progress and prospects, Proc. of Flavor Physics and CP Violation (FPCP02), Philadelphia, PA,May 16-18, 2002, eConf/C020516 pp. 214; hep-ex/0206072 (2002)

S. H. Kettell, Experimental status of K+→π+νν, Proc. of 6th Intl. Workshop on Heavy Quarks and Leptons (HWL02) Vietri sul Mare, Italy, May 27-June 1, 2002, Frascati Physics Series Vol. 28, pp. 251, Eds. G. Cataldi el al; hep-ex/0207044 (2002) R. S. Tschirhart, The sensitivity frontier: Kaon physics in the era of precision B physics, Proc. of 30th SLAC Summer Inst. on Particl ePysics (SS102) Aug. 5-16, 2002; eConf C020805:L06 (2002) O. V. Mineev, Photon sandwich detectors with WLS fiber readout, Nucl. Instr. Meth. A494, 362 (2002).

129

Publications ___________________________________________________________________________________________________

T. Numao, Status of K→πνν experiments at BNL, Proc. of 5th Intl. Conf. On Hyperons, Charm and Beauty Hadrons (BEACH02), UBC Vancouver, Canada, June 25-29, 2002; Nucl. Phys. B115, pp. 238-241 (2003). D. E. Jaffe, K+→π+νν at hadron machines, Presented at Workshop on e+e- in the 1-2 GeV Range: Physics and Accelerator Prospects, Sept. 10-13, 2003 Alghero, Italy

951 H.G. Kirk, et al., Target studies with BNL E-951 at the AGS, Proc., IEEE 2001 Particle Accelerator Conf.,

Chicago, IL. (2001)

K.T. McDonald, et al., The R&D program for targetry at a neutrno factory, Proc. IEEE 2001 Particle Accelerator Conf., Chicago, IL., (2001) N. Simos, H. Kirk, K. McDonald, C.C. Finfrock, G.A. Greene, H. Ludewig, N. Mokhov, Interaction of a 24 GeV proton beam with a muon collider mercury jet target, Trans. Amer. Nucl. Soc., Reno, Nevada (2001)

A. Hassenein, et al., An R&D program for targetry and capture at a neutrino factory and muon collider source, Nucl. Instr. Meth. A, 503 (2), pp. 70-77 (2003)

961 J. K. Ahn, et al., Production o hypernuclei, Phys. Rev. Lett. 87, pp. 123504 (2001)

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f HΛΛ4

C-AD Experimenters

Name Affiliation Experiment Number

- Abaev, V. V. Petersburg Nucl. Phys. Institute 958, 954, 953, 924, 914, 913, 909, 890 Ables, E. Lawrence Livermore National Laboratory 933 Aclander, H. Tel-Aviv University 850 Adair, R. Yale University 923 Adams, G. Rensselaer Polytechnic Institute 852 Adams, J. H. Naval Research Laboratories 934 Adams, N. Rice University STAR Adams, T. University of Notre Dame 852 Adler, C. University of Frankfurt STAR Adler, S. Brookhaven National Laboratory 787 Adomava, D. Laboratory of High Energy Physics – Dubna STAR Agakishiev, H. Laboratory of High Energy Physics – Dubna STAR Ahammed, Z. Purdue University STAR Ahle, L. Massachusetts Institute of Technology 866

Ahmed, M. University of Houston 931, 929, 907 Ahn, J. K. Kyoto University 906 Ahrens, L. Brookhaven National Laboratory 925, 880 Aiello-Lammens, M. Columbia University PHENIX Ajimura, S. Osaka University 930, 929, 906 Ajitanand, N. State University of New York at Stony Brook 895 Akchurin, N. University of Iowa pp2pp, 925 Akekseev, I. G. Institute for Theoretical and Experimental Physics-Moscow 925 Akiba, Y. Institute for Nuclear Study-University of Tokyo 917, 866 Akiba, Yasuyuki KEK PHENIX Akikawa, H. Kyoto University 906 Albergo, S. University of Catania 896 Alburger, D. Brookhaven National Laboratory 930, 885 Alessi, J. Brookhaven National Laboratory 951, 925, 880 Alexander, J. State University of New York at Stony Brook 895 Allen, M. University of California – Davis STAR Allgower, C. Argonne National Laboratory 880 Allgower, C. Indiana University STAR Alrick, K. Los Alamos National Laboratory 939 Alster, J. Tel-Aviv University 850 Alyea, J. Valparaiso University 927 Alyushin, M. Moscow Engineering Physics Institute STAR Amaglobeli, N. HEP Inst. Tibilsi State University 865 Amann, J. Los Alamos National Laboratory 933, 931, 907 Ambrose, D. University of Texas at Austin 871 Amelin, N. Laboratory of High Energy Physics – Dubna STAR Amonett, J. Kent State University STAR Ananeva, M.A. Particle Physics Laboratory – Dubna STAR Anderson, B. D. Kent State University STAR, 948 Anderson, M. University of California – Davis STAR

Ahmad, S. Rice University 891

130

131

Andreev, Y. Inst. Nuclear Research, Moscow 923 Andrianov, Fedor Petersburg Nucl. Phys. Institute, Russia PHENIX Androic, D. University of Zagreb 931, 907 Ankenbrandt, C. Fermi National Laboratory 932 Antonelli, F. National Inst. of Health, Rome, Italy 957 Anzenberg, V. Massachusett Genl. Hospital NSRL Aoki, M. KEK, National Laboratory for High Energy Physics 936, 787 Aphecetche, Laurent Subatech PHENIX Appel, R. University of Pittsburgh 865 Arai, Y. University of Tsukuba 936 Archambeau, J. Loma Linda University NSRL, 856 Archambeau, P. Loma Linda University NSRL Ardebili, M. Princeton University 787 Argintaru, D. University of Bucharest, Romania BRAHMS Armendariz, J. University of New Mexico 865 Armstrong, T. Penn State University 864 Arnold, L. Institute Subatomics de Strasbourg STAR Arsene, I. University Bucharest BRAHMS Asano, Y. University of Tsukuba 936 Ashery, D. Tel-Aviv University 835 Ashktorab, K. Brookhaven National Laboratory 866 Aslanyan, P. Laboratory of High Energy Physics – Dubna STAR Assamagan, K. Hampton University 865 Asselta, K. Brookhaven National Laboratory STAR Athana, M. J. Carnegie-Mellon University 788 Atiya, M. S. Brookhaven National Laboratory 787 Atoyan, G. S. Inst. for Nuclear Reserach, Moscow 926, 923, 865 Aufderheide, M. B. Lawrence Livermore National Laboratory 933 Averichev, G. Laboratory of High Energy Physics – Dubna STAR Azmoun, Babak State University of New York at Stony Brook PHENIX

Babintsev, Vladimir Inst. for High Energy Pysics, Russia PHENIX Bacher, J. Promega Corporation NSRL Bachman, M. University of California-Irvine 940, 935, 871 Back, B. Argonne National Laboratory PHOBOS, 917, 900 Bacow, J. Massachusetts Inst. of Technology PHOBOS Bagaturia, Y. HEP Inst. Tibilsi State University 865 Bagga, R. Abilene Christian University 914, 913 Bai, M. Argonne National Laboratory/Indiana University 950, 925, 880 Baker, K. Hampton University 865 Baker, M. Brookhaven National Laboratory PHOBOS Baker, M. Massachusetts Institute of Technology 866 Baker, R. Columbia Univesity NSRL Baker, S. Bechtel Nevada 963 Bakke, J. Stanford Resarch Institute NSRL Balcer-Kubiczek, E. University of Maryland Baltimore County 919, 898 Baldwin, A. Kent State University STAR

132

Balewski, J. Indiana Univesity STAR, 948 Barakat, M. Louisiana Tech University 931, 907 Barannikova, O. Purdue University STAR Barber, R. University of Houston 929 Barbier, L. M. Goddard Space Flight Center 934 Barcellos-Hoff, M. H. Lawrence Berkeley Laboratory 960, 957, 947, 898 Barish, K. University of California-Riverside PHENIX, 941, 925, 864 Barkov, L. M. Budker Inst. For Nuclearn Physics 821 Barlett, M. University of Texas 829 Barnby, L. Kent State University STAR Barnes, P. LAMPF 811 Barnes, P. Los Alamos National Laboratory 885, 813 Barnes Jr., P. D. Lawrence Livermore National Laboratory 933 Barrette, J. McGill University 877 Bart, S. Brookhaven National Laboratory 909, 856 Barton, D. S. Brookhaven National Laboratory PHOBOS, 850 Bar-Yam, Z. University of Massachusetts-Dartmouth 852 Bassalleck, B. University of New Mexico 950, 949, 926, 906, 885, 865, 813, 811 Bassano, D. SUNY Health Science Center 856 Bathe, Stefan Insitut Fuer Kernphysik PHENIX Batinic, M. Ruder Boskovic Institute 927, 914, 913, 890 Batourine, V. Pennsylvania State University STAR Batsouli, S. Yale University 941 Batsouli, Sotiria Columbia University PHENIX Baturin, V. Pennsylvania State University 850 Baublis, Victor Petersburg Nucl. Phys. Institute, Russia PHENIX Baudot, J. Institute Subatomics de Strasbourg STAR Bauer, G. Paul Scherrer Institute 938 Bazanko, A. Princeton University 787 Bearden, I. G. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRHAMS Beatty, J. J. Pennsylvania State University 934 Beavis, D. Brookhaven National Laboratory BRAHMS, 866 Bedford, J. Colorado University NSRL, 960, 957, 947 Behravesh, E. NASA, Johnson Space Center NSRL Bekele, S. Ohio State University STAR Bekrenev, V. S. Petersburg Nucl. Phys. Institute 958, 954, 953, 924, 914, 913, 909, 890 Belaga, V. Laboratory of High Energy Physics – Dubna STAR Belikov, N. I. Institute for High Energy Physics-Protvino 925 Belkacem, A. Lawrence Berkeley Laboratory 892 Belli, M. National Inst. of Health, Rome, Italy NSRL, 957 Bellwied, R. Wayne State University STAR, 896, 877, 864 Belyakov, Igor Inst. for High Energy Pysics, Russia PHENIX Belzer, L. I. Moscow State University 852 Benante, J. Brookhaven National Laboratory 821 Bennhold, C. George Washington University 927, 924, 909 Bennett, B. Wayne State University 864 Bennett, G. Brookhaven National Laboratory 856, 821 Bennett, M. Space Science Laboratory 896 Bennett, P. Brookhaven National Laboratory NSRL Bennett, S. Wayne State University 941 Berdoz, A. Carnegie-Mellon University 885, 813 Bergbusch, P. TRIUMF 949, 787 Berger, J. University of Frankfurt STAR Bergman, D. Yale University 866

133

Bernadon, A. CERN 951 Bersch, R. State University of New York at Stony Brook 877 Bertaina, M. Massachusetts Int. of Tech. 941 Beshears, D. L. Oak Ridge National Laboratory 951 Besliu, C. University of Bucharest-Romania BRAHMS Best, D. Lawrence Berkeley National Laboratory 895 Betev, L. University of California-Los Angeles 925 Bettega, D. University Federico II NSRL Betts, R. Brookhaven National Laboratory PHOBOS Betts, R. University of Illinois-Chicago 917 Bezverkhny, Betty Yale University STAR Bharadwaj, V. Fermilab 880 Bhuyan, B. Brookhaven National Laboratory 949 Bialas, A. Jagellonian U., Poland PHOBOS Bianski, B. Loma Linda University NSRL Bichsel, Hans University of Washington STAR Bick, Michael University of California – Riverside PHENIX Bickley, A. University of Maryland PHOBOS Bidoli, V. University of Rome, Thor Vergara NSRL, 957 Bieser, F. Lawrence Berkeley Laboratory STAR Biglan, A. Carnegie-Mellon University 885 Billmeier, Anja Wayne State University STAR Billups, A. Brookhaven National Laboratory NSRL Bindel, R. University of Maryland PHOBOS Binns, W. R. Washington University in St. Louis 934, 869 Bionta, R. M. Lawrence Livermore National Laboratory 933 Birchall, J. University of Manitoba 906, 885 Bishop, J. M. University of Notre Dame 852 Bjornstad, K. Lawrence Berkeley National Laboratory NSRL Blackmore, E. TRIUMF 949, 926, 787 Blakely, E. Lawrence Berkeley National Laboratory NSRL Bland, L. Brookhaven National Laboratory STAR Bland, L. C. Indiana University 948 Blaszczak, Z. Inst. Nucl. Phys., Poland PHOBOS Blecher, M. Virginia Polytechnic Institute 936, 926 Blyakhman, Y. New York University BRAHMS Blyth, C. University of Birmingham STAR Bodyagain, V. A. Moscow State University 852 Boemi, D. University of Catania 896 Bogdanov, A. A. Moscow Engineering Physics Inst.-Russia STAR, pp2pp Boggild, H. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Bogucki, W. Inst. Nucl. Phys., Poland PHOBOS Boissevain, J.G. Los Alamos National Laboratory 963 Bondorf, J. P. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Bonner, B. E. Rice University STAR, 896, 891, 818 Bonnet, D. Institute Subatomics de Strasbourg STAR Borak, T. Colorado State University 919 Boucham,A. SUBATECH-Nantes STAR Boudrie, D. Los Alamos National Laboratory 931, 907 Boudrie, R. L. Los Alamos National Laboratory 933 Bouillo, N. SUBATECH-Nantes STAR Bourotte, J. Ecole Polytechnique-France pp2pp Bouvier, S. SUBATECH-Nantes STAR Brabson, B. B. Indiana University 852

134

Braby, J. Texas A&M University NSRL, 957 Bracken, D. S. Los Alamos National Laboratory 900 Brady, P. University of California-Davis STAR, 895 Braun-Munzinger, P. State University of New York at Stony Brook 877 Bravar, S. Brookhaven National Laboratory STAR Breuer, H. University of Maryland 900 Brennan, M. Brookhaven National Laboratory 932 Brill, A. B. University of Massachusetts 856 Briscoe, W. George Washington University 958, 954, 953, 931, 927, 924, 914, 913, 909,907, 905 Britt, H. C. Lawrence Livermore Lboratory 866 Britt, H. University of Maryland 917 Brooks, A. Washington State University 960, 947, 919 Brown, A. Los Alamos National Laboratory PHENIX Brown, C. Carnegie-Mellon University 896 Brown, D. H. Boston University 821 Brown, D. S. Northwestern University 852 Brown, David New Mexico State University PHENIX Brown, H. N. Brookhaven National Laboratory 962, 952, 821 Brown, K. Brookhaven National Laboratory 951, 925, 880 Brown, R. Brookhaven National Laboratory STAR Brown, R. State University of New York at Stony Brook NSRL Briscoe, W. George Washington University 890 Bruner, N. University New Mexico PHENIX, 926 Bruneus, M. Brookhaven National Laboratory NSRL Bryman, D. TRIUMF 926, 787 Bryman, D.A. University of British Columbia 949 Buchnan, J. A. Rice University 891 Budick, B. New York University BRAHMS, 866 Budilov, V. Particle Physics Laboratory – Dubna STAR Budny, T. Wayne State University 877 Budzanowski, A. Inst. Nucl. Phys., Poland PHOBOS Buenerd, M. Institute of Sciens Nucleaires-France pp2pp Buescher, KL. Los Alamos National Laboratory 963 Bullis, J. Brookhaven National Laboratory 919 Bumazhnov, Vladimir Inst. for High Energy Pysics, Russia PHENIX Bump, Leslie Yale University STAR Bunce, G. Brookhaven National Laboratory 962, 952, 950, 925, 880, 850, 821 Burger, M. Freiburg University 813 Bürger, T. Freiburg University 885, 813 Burke, Sean State University of New York at Stony Brook PHENIX Burns, F. New York University Medical Center 957 Burrell, C. Loma Linda Univesity NSRL Busza, W. Massachusetts Inst. Technology PHOBOS Butsyk, Sergey State University of New York at Stony Brook PHENIX Byrne, J. Creighton University STAR

Caccia, Z. University of Catania 896 Cadman, R. Argonne National Laboratory STAR

135

Cagliostro, D.J. Los Alamos National Laboratory 963 Caines, H. Ohio State University STAR Calderon, Manuel Yale University STAR Calen, H. University Uppsala 958, 954, 953 Callan, M. Colorado State University NSRL Calzolari, P. University Federico II NSRL Camard, Xavier Subatech PHENIX Cameron, P. Brookhaven National Laboratory 925, 880 Canfield, P. C. Ames Laboratory 903 Carabello, S. Purdue University 940 Cardenas, A. Purdue University STAR Carey, A. University of Maryland NSRL Carey, R. M. Boston University 962, 821 Carhill, K. University of Maryland NSRL Carman, D. Carnegie-Mellon University 906, 885 Carozzo, S. University of Rom NSRL Carpenter, J. M. Argonne National Laboratory 938 Carroll, A. S. Brookhaven National Laboratory PHOBOS, 923, 850 Carroll, J. Lawrence Berkeley Laboratory STAR Case, T. Lawrence Berkeley National Laboratory 895 Casey, R. M. Boston University 952 Caskey, W. University of California-Davis 895 Cason, N. M. University of Notre Dame 852 Castillo, J. SUBATECH-Nantes STAR Castro, Maria Wayne State University STAR Cates, M. C. Oak Ridge National Laboratory 951 Cebra, D. University of California-Davis STAR, 895 Cen, C. TRIUMF 949 Ceretto, Federica State University of New York at Stony Brook PHENIX Chaloupka, P. Laboratory of High Energy Physics – Dubna STAR Chamsoutdinov, G. Michigan State Univesity STAR Chan, C. S. City College of New York 891 Chance, J. University of California-Davis 895 Chang, H. Massachusetts Inst. Technology PHOBOS Chang, J. University of California-Riverside PHENIX, 917, 866 Chang, P. Stanford Resarch Institute NSRL Chang, W. University of California-Riverside 917 Chang. Y. National Central University, Taiwan PHOBOS Chapman, M. KEK-National Laboratory for High Energy Physics 936, 813 Chasman, C. Brookhaven National Laboratory BRAHMS, 866 Chattapadhyay, S. Wayne State University STAR Chatterjee, A. Berkeley University NSRL Chemakin, I. Columbia University 910, 866 Chen, A.E. National Central Univesity, Taiwan PHOBOS Chen, D. J. Los Alamos National Laboratory 960, 947, 919, 898 Chen, Q. Duke Univesity NSRL Chen, S. TRIUMF 949 Chen, Y. University of California-LosAngeles STAR Chen, Z. Brookhaven National Laboratory 866 Chernenko, S. Laboratory of High Energy Physics – Dubna STAR Cherney, M. Creighton University STAR Cherry, M. L. Louisiana State University 868 Chertovskikh, A. Budker Inst. For Nucl. Phys. 821 Chevel, Andrei Petersburg Nucl. Phys. Institute, Russia PHENIX

136

Chi, C. Y. Columbia University PHENIX, 917, 866 Chiang, I-H. Brookhaven National Laboratory 949, 926, 787 Chikanian, A. Yale University STAR, 941 Chiu, M. Columbia University PHENIX Choi, B. University of Texas – Austin STAR Choi, Ihn jea Yonsei University PHENIX Chrien, R. E. Brookhaven Natl. Laboratory pp2pp,961,931,930,929,909,907,906,905,890,885,856,813 Christensen, N. University of Auckland 850 Christensen, P. Niels Bohr Inst. for Astronomy, Physics and Geophysics BRAHMS Christian, E. R. Goddard Space Flight Center 934 Christie, W. Brookhaven National Laboratory STAR Chu, P. Indiana University IUCF 880 Chu, Y. Y. Brookhaven National Laboratory 917, 866 Chung, P. State University of New York at Stony Brook 895 Chung, S. U. Brookhaven National Laboratory 852 Cianciolo, T. Oak Ridge National Laboratory PHENIX Cianciolo, V. Lawrence Livermore National Laboratory 910 Cianciolo, V. Massachusetts Institute of Technology 866 Cibor, C. Jagellonian University BRAHMS Cibor, J. Texas A&M University BRAHMS Clajus, M. H. University of California-Los Angeles 927, 924, 914, 913, 909, 890 Clar, D.A. Los Alamos National Laboratory 963 Claytor, N. Lawrence Berkeley Laboratory 892 Cleland, W. University of Pittsburgh 877 Clemen, M. University of Pittsburgh 877 Clement, J. M. Rice University 891 Cobigo, Yann Commissariat A l’Energie Atomique PHENIX Coe, S. Yale University 864 Coffin, J-P. Institute Subatomics de Strasbourg STAR Coghen, T. Inst. Nucl. Phys., Poland PHOBOS Cole, B. Columbia University 910, 895, 866 Cole, J. Idaho National Engineering Laboratory 877 Comfort, J. R. Arizona State University 958, 954, 953, 931, 927, 914, 913, 907 Conin, L. SUBATECH-Nantes STAR Conner, C. University of Illinois-Chicago 917 Connolly, L. Lawrence Berkeley National Laboratory NSRL Connor, D. University of California-Irvine 871 Conrad, H. Forschungszentrum Jülich 938 Constantin, F. University of Bucharest-Romania BRAHMS Conte, M. University of Genova and Sezione INFN-Italy pp2pp Convertino, A. Massachusetts Inst. Technology PHOBOS Convery, M. Princeton University 787 Cooper, B. Lawrence Berkeley Laboratory NSRL Cooper, P. Lawrence Berkeley Laboratory 960, 957, 947, 919, 898 Cooper, P.S. Fermi National Accelerator Laboratory 949 Cooper, R. Bechtel Nevada 945 Corbo, J. Brookhaven National Laboratory PHOBOS Corlett, J. Lawrence Berkeley National Laboratory 951 Cormier, T. Wayne State University STAR, 941, 877, 864 Cosolino, M. University of Rome, Thor Vergara 957 Costa, S. University of Catania 896 Costas, S. Lawrence Berkeley National Laboratory NSRL Courant, E. D. Brookhaven National Laboratory 880 Courant, H. University of Minnesota 850

137

Cowan, T. E. Lawrence Livermore National Laboratory 933 Cox, A. USAF Armstrong Laboratory 919

Craig, K. Arizona State University 958, 927, 914, 913 Cramer, John G. University of Washington STAR Crawford, H. University of California-Space Science Laboratory STAR, 917, 896, 866 Cristie, W. Brookhaven National Laboratory 896 Crittenden, R. R. Indiana University 852 Crockett, D. Loma Linda University NSRL Cronqvist, M. Space Science Laboratory 896 Crowe, K. Lawrence Berkeley National Laboratory 895 Cuccinota, F. NASA Johnson Space Center NSRL, 957 Cui, X. University of Houston 931, 907 Cullen, J. Brookhaven National Laboratory 821 Culpepper, W. X. National Aeronautics and Space Administration 922 Cumming, J. B. Brookhaven National Laboratory 917, 866 Cummings, J. P. Rensselaer Polytechnic Institute 852 Cummingg, J. R. Washington University 934 Cunningham, G. Los Alamos National Laboratory 963 Cuomo, N. Brookhaven National Laboratory NSRL Cushman, P. University of Minnesota 962, 952, 821 Cverna, F. Los Alamos National Laboratory 939 Cyliax, I. Indiana University STAR Czyz, W. Jagellonian University, Poland PHOBOS

Dabrowski, B. Instg. Nucl. Phys., Poland PHOBOS Dai, Y. McGill University 877 Dambrowska, A. Institute of Nucl. Phys.-Krakow 868 Danby, G. T. Brookhaven National Laboratory 962, 821 Danner, A. Indiana University 949 Danyo-Blackett, K. Brookhaven National Laboratory 852 Das, A. Ohio State University 895 DaSilva, N. University of São Paulo 877 DaSilva, Cesar University of São Paulo PHENIX David, G. Brookhaven National Labortory 877 Davidenko, A. M. Institute for High Energy Physics-Protvino 925 Davies, R. M. Purdue University 864 Davis, C. TRIUMF 885 Davis, C. University of Manitoba 906, 813 Davis, C. L. University of Louisville 852 Davis, E. MRC Radiation & Genome Stability Unit, UK NSRL De, K. University of Texas-Arlington pp2pp Debbe, R. Brookhaven National Laboratory BRAHMS, 896, 866 Debevec, P. University of Illinois 962, 952, 924, 821 DeCecco, P. University of California-Irvine 896, 871 Decowski, P. Massachusetts Inst. Technology PHOBOS Dehnhard, D. University of Minnesota 931, 907 Deile, M. Yale University 962 Demello, M. Rice University STAR

138

Demianoi, A. Moscow State University 852 DeMoura, M Institute de Fisica da University de Sao Paulo STAR Deng, H. Yale University 962, 821 Deng, W. Kent State University STAR Deninger, W. University of Illinois 962, 821 Denisov, S. Institute for High Energy Physics-Protvino PHENIX, 852 DeNolfo, G. A. Caltech 934 Depommier, P. University of Montreal 936 Derevschikov, A. A. Institute for High Energy Physics-Protvino STAR, 925 Desai, N. NASA, Johnson Space Center NSRL Despet, M. Inst. Nucl. Phys., Poland PHOBOS Deutsch, M. Massachusetts Inst. of Technology 820 Dhawan, S. Yale University 926 Dhawan, S. K. Yale University 962, 865, 821 Dicello, J. John Hopkins Medical Inst. 960, 957, 947 Didenko, L. Brookhaven National Laboratory STAR Diebold, G. Yale University 813 Dienes-Jones, P. Louisiana State University 868 Dietel, T. University of Frankfurt STAR Dietzsch, O. University of São Paulo PHENIX, 877 Ding, L. Lawrence Berkeley Laboratory NSRL Dinneen, T. Lawrence Berkeley Laboratory 892 Diwan, M. Brookhaven National Laboratory 949, 923, 787 Djikibaev, R. M. Institute for Nuclear Research 940 Do, H. Yale University 865 Dominik, W. Warsaw University, Poland STAR Donahue, J. University of Pennsylvania NSRL Dong, W. University of California-LosAngeles STAR Doornbos, J. TRIUMF 885 Dorofeev, V. A. Inst. For High Energy Physics – Protvino, Russia 852 Doskow, J. Indiana U. Cyclotron Facility 950 Douvernoi, M. Pennsylvania State University 934 Dowd, J. University of Massachusetts-Dartmouth 852 Drakine, Iouri Kurchatov Institute, Russia PHENIX Drancourt, C. SUBATECH-Nantes STAR Draper, B. Abilene Christian University 914, 913 Draper, J. University of California-Davis STAR, 895 Drigert, M. Idaho National Engineering Laboratory 877 Druzhinin, V. P. Budker Institute for Nucl. Phys. 962, 821 Du, Fei Yale University STAR Dubinina, A. I. Institute of Theory and Experimental Physics-Moscow 868 Dudkin, G. N. Tomsk Nucl. Phys. Institute-Russia pp2pp Dunin, V. Laboratory of High Energy Physics – Dubna STAR Dunlop, J. Massachusetts Institute of Technology 917, 866 Dunlop, James Yale University STAR Duong, L. University of Minnesota 962, 821 Durum, Arthur Inst. for High Energy Pysics, Russia PHENIX Durant, S. Tel-Aviv University 850 Durante, M. University “Federico II”,Napoli NSRL, 957 Dushkin, A. Institute for High Energy Physics-Protvino 852 Dzierba, A. R. Indiana University 852

Earl, D. D. Oak Ridge National Laboratory 951 Earle, W. Boston University 821 Eckardt, V. Max-Planck-Institute fuer Physik STAR Eckhause, M. College of William and Mary 935, 924, 871 Ecklund, K. Stanford University 871 Edwards, C. Los Alamos National Laboratory 931, 907 Efendiev, A. JINR-Dubna 927, 914, 913, 909, 890 Efimov, L. Laboratory of High Energy Physics – Dubna STAR Efstathiasdis, E. Boston University 962, 821 Efstathiasdis, E. City College of New York 891 Egger, J. Paul Scherrer Institute 865 Egorov, O. K. Institute of Theory and Experimental Physics-Moscow 868 Eilerts, S. University of New Mexico 950, 865 Eiseman, S. E. Brookhaven National Laboratory 891 Elaasar, M. Louisiana Tech. University 923 Eldredge, W. University of California-Riverside 917, 866 Ellsworth, J. University of Rochester PHOBOS Emami, K. NASA, Johnson Space Center NSRL Emelianov, V. Moscow Engineering Physics Institute STAR Empl, A. University of Houston 940, 931, 929, 907, 905 Endo, K. KEK 821 Engelage, J. Space Science Laboratory STAR, 917, 896, 866 Enger, E. University of Oslo BRAHMS Enokozono, Akitomo Hiroshima University PHENIX Enyo, H. University of Kyoto 813 Eppley, G. Rice University STAR Erazmus, B. SUBATECH-Nantes STAR Erin, S. V. Institute for High Energy Physics-Protvino 925 Espinoza, C.J. Los Alamos National Laboratory 963 Esumi, Shin-ichi University of Tokyo PHENIX Etkin, A. Brookhaven National Laboratory 891 Eugenio, P. Carnegie-Mellon University 906, 852 Evans, H. Case Western Reserve University 960, 957, 947, 919 Ewell, L. Iowa State University 864

139

Fabich, A. CERN 951 Fachini, P. Brookhaven National Laboratory STAR Fachini, P. Wayne State University 941 Fadem, B. Iowa State University 941

140

Faine, V. Brookhaven National Laboratory STAR Fanebust, K. Fysisk Insitute-Norway BRAHMS Farley, F. J. M. Yale Unviersity 952, 821 Fedotovich, G. V. Budker Institute for Nucl. Phys. 962, 821

Felder, C. University of Pittsburgh 865 Felea, D. University of Bucharest-Romania BRAHMS Ferdousi, Tahsina University of California – Riverside PHENIX Ferenc, D. University of California – Davis STAR Ferm, E. Los Alamos National Laboratory 963 Fernow, R. Brookhaven National Laboratory 951, 910 Fessler, H. Max-Planck-Institute fuer Physik STAR Fickinger, W. Case Western Reserve University 856, 811 Fields, D. E. University of New Mexico 950, 926 Fike, J. Loma Linda University NSRL Filimonov, K. Lawrence Berkeley Laboratory PHENIX, STAR Finch, E. Yale University STAR, 941 Finfrock, C.C. Brookhaven National Laboratory 951, 963 Finnemore, D. K. Ames Laboratory 903 Fischer, H. University of Freiburg 906, 885, 813 Fischer, H. University of New Mexico 906, 865 Fisyak, Y. Brookhaven National Laboratory STAR Fitch, J. Massachusetts Inst. Technology PHOBOS Fliere, D. University of Frankfurt STAR Flores, M. Space Science Laboratory 896 Foley, K. J. Brookhaven National Laboratory STAR, 891 Fokin, Sergey Kurchatov Institute, Russia PHENIX Ford, J. Texas A&M University NSRL Foster, C. C. Indiana University Cyclotron Facility 904 Fouladi, B. Texas A&M University 957 Frank, J. S. Brookhaven National Laboratory 949, 923, 787 Franklin, G. B. Carnegie-Mellon University 931, 924, 907, 906, 885, 813 Frantz, Justin Columbia University PHENIX Franz, J. University of Freiburg 906, 885, 813 Frawley, A. D. Florida State University PHENIX, 910 Frehaut, J. CEA 939 French, A. Wayne State University 877 Friedl, M. Massachusetts Inst. Technology PHOBOS Fu, Jinghua Inst. Particle Physics – China STAR Fujino, D. Lawrence Livermore National Laboratory 933 Fujiwara, T. Kyoto University 949 Fukuda, T. INS-University of Tokyo 961, 930, 929, 906, 905 Fukui, Y. Lawrence Berkeley Laboratory 951 Fung, S.-Y. University of California-Riverside 917, 866 Furic, M. University of Zagreb 931, 907 Furusawa, Y. Natl. Inst. Of Radiological Sciences, Japan 919

Feinberg, B. Lawrence Berkeley Laboratory 892

Gaardhoje, J. J. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Gabriel, K. Pennsylvania State University 850

141

Gabriel, T. A. Oak Ridge National Laboratory 951 Gaertner, A. Max-Planck-Institute fuer Physik STAR Gagliardi, C. Texas A&M University STAR Gagunashvili, N. Laboratory of High Energy Physics – Dubna STAR Gall, K. P. Boston University 811 Gallardo, J.C. Brookhaven National Laboratory 951 Galuszka, K. Institute Nucl. Phys., Poland PHOBOS Gan, L. Hampton Univesity 906, 885, 813 Gang, F. Wayne State University 906, 877 Gans, Jon Yale University STAR Ganz, R. University of Illinois-Chicago 917 Garcia, E. University of Maryland 917, 866 Garcia-Solis, E. University of Illinois-Chicago PHOBOS Gardner, C. Brookhaven National Laboratory 821 Gardner, R. Indiana University 852 Garrard, T. L. Caltech 934, 869 Gassner, D. Brookhaven National Laboratory 961 Gasser, J. University of Bern 865 Gatley, J. Brookhaven National Laboratory NSRL, 919 Gaudichet, L. SUBATECH-Nantes STAR Gauland, C. Arizona State University 931, 907 Gauny, S. Lawrence Berkeley National Laboratory NSRL Gazdzicki, M. University of Frankfurt STAR Geer, L. Y. Washington University 869 Gelderloos, C. J. University of Colorado 937 Geller, J. Brookhaven National Laboratory 821 Genik, P. Colorado State University NSRL George, K. NASA, Johnson Space Center NSRL George, N. Brookhaven National Laboratory PHOBOS George N. Yale University 941, 864 Gerald, J. Brookhaven National Laboratory 931, 907 Germain, M. Institute Subatomics de Strasbourg STAR Germinano, M. Texas A&M University BRAHMS Gerwitz, J. University Pennsylvania 957 Geurts, F. Rice University STAR Gewirtz, A. University of Pennsylvania NSRL Ghazikhanian, V. University of California-Los Angeles STAR, 925 Ghosh, Tarun Vanderbilt University PHENIX Giacomich, R. University of Trieste and Sezione INFN-Italy pp2pp Gibson, A. Valparaiso University 914, 913 Gibson, B. F. Los Alamos National Laboratory 931, 907 Giles, B. University of Pittsburgh 865 Gilkes, M. Purdue University 895 Gilkes, M. State University of New York at Stony Brook 910 Gill, D. TRIUMF 813 Gill, R. Brookhaven National Laboratory pp2pp Gillitzer, A. Argonne National Laboratory 917 Gimeno-Nogues, F. Texas A&M University 900 Giri, U. University of Texas NSRL Giron, S. University of Minnesota 962, 821 Glass, G. University of Texas at Austin 931, 907 Glavanakov, I. V. Tomsk Nucl. Phys. Institute-Russia pp2pp Glenn, Andrew University of Tennessee PHENIX Glenn, J. W. Brookhaven National Laboratory 952, 926, 880

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Gninenko, S. N. Inst. for Nuclear I, Academy of Sciences of Russia 865 Godlewsi, J. Institute Nucl. Phys., Geneva PHOBOS Gojak, C. Institute Subatomics de Strasbourg STAR Golubev, V. B. Budker Inst. For Nucl. Phys. 821 Gomes, C. Massachusetts Inst. Technology PHOBOS Gomez, J.J. Los Alamos National Laboratory 963 Goncharenko, Yu. M. Institute for High Energy Physics-Protvino 925 Gonda, S. NASA, Johnson Space Center NSRL Gonzalez, J. University of California-LosAngeles STAR Gordeev, A. Brookhaven National Laboratory 923 Goto, Y. RIKEN 950, 925 Gould, H. Lawrence Berkeley Laboratory 892 Grabski, J. Warsaw University, Poland STAR Grachov, Oleg Wayne State University STAR Graessle, S. University of Texas-Austin 871 Gray, F. University of Illinois 962, 821 Grayu, N.T. Los Alamos National Laboratory 963 Green, L. Loma Linda University NSRL, 957 Green, M. A. Lawrence Berkeley Lab./Brookhaven National Laboratory 951, 821 Greene, G. Brookhaven National Laboratory 963, 955, 951, 945B, 945A, 939 Greene, V. S. Vanderbilt University 864 Greenwood, D. Louisiana Tech. University 923 Greiner, L. Space Science Laboratory 896 Greiner, L. Lawrence Berkeley Laboratory 896 Grene, V. Vanderbilt University 941 Gribushin, A. M. Moscow State University 852 Grigoriev, D. N. Budker Inst. For Nucl. Phys. 962, 821 Grigoriev, M. Inst. Nuclear Reasearch (INR) 926 Grigoriev,V. Moscow Engineering Physics Institute STAR Groesser, T. Lawrence Berkeley National Laboratory NSRL Grosnick, D. Valpariso University 954, 953, 927, 924, 914, 913 Grosse-Perkekamp, M. Yale University 962, 821 Grossi, G. University Fe4derico II NSRL Grossmann, A. University of Heidelberg 962, 821 Grotowski, K. Jagellonian University-Poland BRAHMS Grover, Andrew State University of New York at Stony Brook PHENIX Groznick, D. Valparaiso University 958 Gruner, R. Fysisk Institute-Norway BRAHMS Guan, J. University of Pennsylvania NSRL Guedon, M. Institute Subatomics de Strasbourg STAR Guetersloh, S. Lawrence Berkeley National Laloratory NSRL Guida, P. Brookhaven National Laboratory NSRL Guilloux, G. SUBATECH-Nantes STAR Gulbrandsen, K. Massachusetts Inst. Technology PHOBOS Gumplinger, P. TRIUMF 926 Gunter, J. Indiana University 852 Guryn, W. Brookhaven National Laboratory pp2pp Gushin, E. Moscow Engineering Physics Institute STAR Gushue, S. Brookhaven National Laboratory PHOBOS , 910, 909, 900, 895, 866, 850 Gutbrod, H. SUBATECH-Nantes STAR Gutierrez, T. University of California – Davis STAR

Hachiya, Takashi Hiroshima University PHENIX Hackenburg, R. W. Brookhaven National Laboratory 891, 871, 852 Hada, M. Brookhaven National Laboratory NSRL Haeberlen, U. Max Planck Institut for Physik 821 Hafen, E. S. Massachusetts Institute of Technology 864 Hagel, K. Texas A&M University BRAHMS Haggerty, J. S. Brookhaven National Laboratory 949, 787 Haguenauer, M. Ecole Polytechnique-France pp2pp Haines, J. Oak Ridge National Laboratory 951, 938 Halberg, R. Promega Corporation NSRL Halik, J. Institute Nucl. Phys., Poland PHOBOS Hall, E. Columbia University NSRL Hall, J. Wayne State University 877, 864 Halliwell, C. University of Illinois – Chicago PHOBOS Hallman, T. Brookhaven National Laboratory STAR, 896 Hamagaki, H. Institute for Nuclear Study-University ofTokyo PHENIX, 917, 866 Hamblen, J. University of Rochester PHOBOS Hamilton, S. University of Texas-Austin 871 Hanabata, M. Gifu University 906 Hancock, D. College of William and Mary 935, 871 Hansen, Allan Los Alamos National Laboratory PHENIX Hansen, A. G. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Hansen, O. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Hanson, A. L. Brookhaven National Laboratory 963, 939 Hardtke, D. Lawrence Berkeley Laboratory STAR Hare, M. Boston University 962, 821 Haridas, P. Massachusetts Institute of Technology 941, 864 Harper, Greg University of Washington STAR Harris, John Yale University STAR Hartman, C. Stanford University 871 Hartouni, E. P. Lawrence Livermore National Laboratory 933 Hashimoto, O. Tohoku University 931, 930, 907 Hasinoff, M. University of British Columbia – TRIUMF 936, 926, 811 Hassanein, A. Argonne Natinal Laboratory 951 Hastings, J. B. Brookhaven National Laboratory 951, 938 Hatcher, N. Creighton University STAR Haversten, K. Iowa State University 864 Hayakawa, H. Osaka University 929 Hayano, R. S. University of Tokyo 917, 905, 866 Hayoshi, N. RIKEN 950, 925 Hayek, M. University of Massachusetts-Dartmouth 852 Hazama, R. Osaka University 929 Hazen, E. S. Boston University 821 He, Xiaochun Georgia State University PHENIX

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He, Y. D. University of California-Berkeley 916, 903 Hebert, M. Stanford University 871 Hecox, Ryan State University of New York at Stony Brook PHENIX Heering, A. University of Minnesota 952 Heffner, M. University of California-Davis 895 Heffner, Michael Lawrence Livermore National Laboratory PHENIX Hei, T.K. Columbia University 960, 957, 947, 919, 898 Heilbronn, L. Lawrence Berkeley Laboratory NSRL, 966 Heintzelman, G. Massachusetts Institute of Technology 917, 866 Heiselberg, H. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Held, K. Massachusetts General Hospital NSRL Held, Samuel University of Tennessee PHENIX Hemmick, T. K. State University of New York at Stony Brook 877 Henderson, C. Massachusetts Inst. Technology PHOBOS Henning, W. Argonne National Laboratory 917 Henry, G. Lawrence Livermore National Laboratory 939 Henry, T. Texas A&M University STAR Heppelmann, S. Pennsylvania State University STAR, 850 Herrmann, N. GSI-Darmstadt 877 Hern, K. College of William and Mary 935 Herold, W. D. Paul Scherrer Institute 865 Herston, T. Purdue University STAR Hertzog, D. W. University of Illinois 962, 952, 924, 821 Hesy, N. University of Birmingham 811 Heuser, Johann State University of New York at Stony Brook PHENIX Hicks, D.F.S. Brookhaven National Laboratory PHOBOS Hicks, K. Ohio State University 820 Hiebert, R. C. Texas A&M University 835 Hiejima, H. Columbia University 910 Hill, J. C. Iowa State University 941, 864 Hill, R. Argonne National Laboratory STAR Hink, P. L. Washington University in St. Louis 934 Hippolyte, B. Institute Subatomics de Strasbourg STAR Hiramatsu, S. KEK 880 Hirabayashi, H. KEK 821 Hirano, Taichi University of Tsukuba PHENIX Hiroyoshi, Hiejima Columbia University 910 Hirsch, A. S. Purdue University STAR, 941, 895. 864 Hjort, E. Lawrence Berkeley Laboratory STAR Hjort, E. Purdue University 895 Hobbs, Robert Univesity of New Mexico PHENIX Hoff, C. College of William and Mary 871 Hoffman, W. University of Texas 829 Hoffmann, G. University of Texas STAR, 896, 871 Hofman, D. Argonne National Laboratory PHOBOS, 917 Hogan, G. Los Alamos National Laboratory 963, 933, 920 Hogan, M. Massachusetts Inst. Technology PHOBOS Holley, W. Lawrence Berkeley Laboratory 966 Hollis, R.S. University of Illinois – Chicago PHOBOS Holm, A. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Holm, C. Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Holme, A. K. University of Oslo-Norway BRAHMS Holtzman, B. University of Illinois-Chicago 917 Holynski, R. Institute of Nucl. Phys.-Krakow PHOBOS, 868

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Holzman, B. Brookhaven National Laboratory PHOBOS Holzmann, Wolf State University of New York at Stony Brook PHENIX Homma, Kensuke Hiroshima University PHENIX Homma, S. Institute for Nuclear Study-University of Tokyo 917, 866 Hong, B. State University of New York at Stony Brook 877 Hoover, Andrew New Mexico State University PHENIX Horsley, Mathew Yale University STAR

Horvath, D. Central Research Inst. For Physics, Budapest 811 Hotchi, H. University of Tokyo 906

Hoversten, R. Iowa State University 941 Howe, Mark A. University of Washington STAR Hseuh, H-C. Brookhaven National Laboratory 821 Hseuh, S. Fermilab 880 I, W-Ch Indiana University 900 Hu, J. TRIUMF 949 Hu, Yuan Inst. Particle Physics – China STAR Huang, H. Brookhaven National Laboratory 950, 925, 880 Huang, H. University of California-Los Angeles STAR, 941, 925, 896, 864 Huddleston, J. Abilene Christian University 914, 913 Hughes, B. J. Boston University 952, 821 Hughes, V. Yale University 926, 821 Humanic, T. Ohio State University STAR, 896 Hungerford, E. V. University of Houston 940, 931, 929, 907, 905 Hunt, W. Indiana University STAR Hunter, J. Lawrence Berkeley Laboratory STAR Huo, L. Harbin University 895 Huso, D. NSBRI-John Hopkins Medical Inst. 957 Hutter, Richard State University of New York at Stony Brook PHENIX

Ibeda, H. High Energy Accelerator Research Org. (KEK) 938 Ichihara, T. RIKEN 925 Ichii, S. KEK 821 Ichikawa, A. Kyoto University 906, 885 Igo, G. University of California-Los Angeles STAR, 925, 896 Iijima, T. University of Kyoto 813, 811 Iimina, T. KEK 885 Ikeda, H. KEK 938 Ikonnikov, Victor Kurchatov Institute, Russia PHENIX Imai, K. Kyoto University 964, 950, 906, 885, 813 Imazato, J. KEK, National Laboratory for High Energy Physics 936 Inagaki, T. KEK, National Laboratory for High Energy Physics 949, 787 Ingrassia, P. Brookhaven National Laboratory 880 Insolia, A. University of Catania 896 Iordanova, A. University of Illinois – Chicago PHOBOS Irwin, G. M. Stanford University 871 Israel, M. H. Washington University 934

146

Isenhower, L. D. Abilene Christian University 958, 954, 953, 927, 914, 913, 909, 890 Ishida, K. University of Riken 821 Ishihara, M. RIKEN 950 Ishihara, A. University of Texas – Austin STAR Ishikawa, T. University of Tokyo 930, 917 Isreal, M. H. Washington University in St. Louis 934 Issakov, V. V. Inst. for Nuclear I, Moscow 926, 923, 865 Ito, H. Brookhaven National Laboratory BRAHMS Ito, M. Thomas Jefferson National Accelerator Facility 926 Ito, M. M. Princeton University 787 Ivanov, E. I. University of Notre Dame 852 Ivanshin, Y. Particle Physics Laboratory – Dubna STAR Ivashkin, A. Institute for Nuclear Research-Moscow 949, 926 Iwasaki, M. Tokyo Inst. of Technology 962, 821

Jackson, J. Brookhaven National Laboratory 821 Jacobs, P. Lawrence Berkeley Laboratory STAR Jacobs, W. W. Indiana University STAR, 948 Jaffe, D.E. Brookhaven National Labortory 949 Jain, V. Brookhaven National Laboratory 926, 787 Jang, Woo Young Korea University PHENIX Janik, M. Warsaw University, Poland STAR Jaradat, H. Wayne State University 941 Jardine, J. Brookhaven National Laboratory NSRL Jared, R. Lawrence Berkeley Laboratory STAR Jensen, P. University of Texas 896 Jeon, D. Indiana University IUCF 880 Jia, Jiangyong State University of New York at Stony Brook PHENIX Jia, L. Brookhaven National Laboratory 821 Jipa, A. University of Bucharest-Romania BRAHMS Johanson, T. University Uppsala 958 Johnson, Austin University of Tennessee PHENIX Johnson, C. CERN 951 Johnson, E. University of Rochester PHOBOS Johnson, I. Lawrence Berkeley Laboratory STAR Johnson, K. Brookhaven National Laboratory 788 Johnson, R. R. TRIUMF 835 Johnson, S. State University of New York at Stony Brook 877 Johnson, Stephen Lawrence Livermore National Laboratory PHENIX Johnston, K. Louisiana Tech University 931, 923, 907 Johnston, K. University of North Carolina 905 Johnstone, C. Fermi National Laboratory 932 Jones, P. University of Birmingham STAR Jones, R. T. University of Connecticut 924 Jones, T. Loma Linda University NSRL Jones, W. V. Louisiana State University 868 Jørdre, J. I. Fysisk Institute BRAHMS

147

Jorgensen, C. E. Niels Bohr Inst. for Astonomy, Physics and Geophysics BRAHMS Jorgensen, T. Georgetown University Medical Center 919, 898 Joseph, J. Human Nutrition Research Center on Aging 957 Joseph, J. University of Maryland NSRL Judd, E. Space Science Laboratory STAR, 896, 866 Jundmann, K. Physik Inst. der Universit≅t Heidelberg 952 Jundt, F. Institute Subatomics de Strasbourg STAR Jundt, F. IRES and Universite Louis Pasteur BRAHMS Jung, Yeondae Kangnung National University PHENIX Jungmann, K. University of Heidelberg 926, 821 Jurak, A. Institute of Nucl. Phys.-Krakow 868 Justice, M. Kent State University 910, 895

Kabana, Sonya Yale University STAR Kabe, S. KEK, National Laboratory for High Energy Physics 949, 787 Kachaev, I. A. Inst. For High Energy Physics – Protvino, Russia 949, 852 Kagel, G. University of California-Irvine 940, 935 Kahn, S. A. Brookhaven National Laboratory 951 Kainz, K. Rice University 896 Kale, P. Alabama Agr. And Mech. University 960, 957, 947, 919 Kalogeropoulos, T. Syracuse University 856 Kametani, Soichiro University of Tokyo PHENIX Kamihara, Noboyuki Tokyo Inst. of Technology PHENIX Kanavets, V. P. Institute for Theoretical and Experimental Physics-Moscow 925 Kane, J. College of William and Mary 935, 924, 871 Kane, J.L. Massachusetts Inst. Technology PHOBOS Kaneko, HJ. Kyoto University 866 Kanematsu, N. University of California-Irvine 871 Kaneta, M. Lawrence Berkeley Laboratory STAR Kang, J. H. Yonsei University 917, 910, 866 Kann, Mikhail Petersburg Nucl. Phys. Institute, Russia PHENIX Kapinos, P. TRIUMF 787 Kaplan, M. Carnegie-Mellon University STAR, 896, 895 Kaplin, V. A. Moscow Engineering Physics Institute STAR, pp2pp Karabowicz, R. Jagellonian University BRAHMS Karakash, A. Moscow Engineering Physics Institute STAR, pp2pp Karavichev, O. Inst. for Nuclear Research, Moscow 923 Karkala, A. Masachusetts General Hospital NSRL Kaspar, H. Yale University 926 Kaspar, H. Paul Scherrer Institute 865 Kasprzyk, T. Argonne National Laboratory STAR, 914, 913 Katayama, T. RIKEN 880 Kato, Koichi Waseda University PHENIX Katzy, J. Massachusetts Inst. Technology PHOBOS Kawall, D. Yale Unviersity 926, 821 Kawamura, M. Tokyo Inst. of Technology, University of Minnesota 962, 821 Kazantsev, Andrei Kurchatov Institute, Russia PHENIX

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Kazumori, M. INS – University of Tokyo 787 Keane, D. Kent State University STAR, 910, 895 Kelly, S. University of California-Los Angeles 896 Kelly, Sean Columbia University PHENIX Kennedy, A. University of Pennsylvania NSRL Kern, B. Indiana University 852 Kern, W. University of Massachusetts-Dartmouth 852, 818 Kettel, S. Brookhaven National Laboratory 949,923, 787 Khabibullin, M.M. Inst. for Nuclear Research 949, 926 Khachaturov, Bakshi Weizmann Inst. of Science PHENIX Khan, N. University of Rochester PHOBOS Khanzadeev, Alexi Petersburg Nucl. Phys. Institute, Russia PHENIX Khaustov, P. Carnegie-Mellon University 885 Khazin, B. I. Budker Institute for Nucl. Phys. 926, 821 Khodyrev, V. Institute High Energy Physics-Protvino STAR Khotjanzev, A. Institute for Nuclear Research-Moscow 949, 926 Kim, B. Wayne State University 877 Kim, Do Hyun Myongji University PHENIX Kim Dongjo Yonsei University PHENIX Kim, E. J. Johns Hopkins University BRAHMS Kim, E. J. Yonsei University 917, 866 Kim, Ealgoo Seoul National University PHENIX Kim, Hong Joo Yonsei University PHENIX Kindem, J. University of Minnesota 926, 821 Kineshita, K. University Cincinnati 926 King, B. J. Brookkhaven National Laboratory 951 King, E. University of Massachusetts-Dartmouth 852, 818 King, Joshua Virginia Poly. Inst. & State University PHENIX King, N. S. P. Los Alamos National Laboratory 963, 939, 933 Kinnison, J. NSCORTLBNL-CSU 957 Kirchner,D. SUBATECH-Nantes STAR Kirk, H. Brookhaven National Laboratory 951, 910, 818 Kiryluk, J. University of California-LosAngeles STAR Kishi, Y. Osaka University 787 Kishimoto, T. Osaka University 930, 929 Kisiel, A. Warsaw University, Poland STAR Kitching, P. TRIUMF 949, 787 Kiyomichi, Akio University of Tsukuba PHENIX Kiyoyama, Kouji Nagasaki Inst. of Applied Science PHENIX Klarmann, J. Washington University 869 Klay, J. Lawrence Berkeley Laboratory STAR Klein, S. Lawrence Berkeley Laboratory STAR Klein-Boesing, C. University of Munster PHENIX Klyachko, A. Indiana University STAR Knecht, N. University of Regina 958, 914, 913 Kobayashi, Hideyuki RIKEN PHENIX Kobayashi, M. KEK, National Laboratory for High Energy Physics 949, 787 Kochetkov, V. Institute for High Energy Physics-Protvino 852 Kodolva, O. L. Moscow State University 852 Koehler, A. Harvard Cyclotron Laboratory 856 Koehler, Daniel University of New Mexico PHENIX Koetke, D. D. Valparaiso University 958, 954, 953, 927, 924, 914, 913 Kohama, Takeshi Hiroshima University PHENIX Kolganova, E. D. Institute of Theory and Experimental Physics-Moscow 868

149

Kolobashkina, L. Moscow Engineering Physics Institute STAR Koltick, D. Purdue University 940 Komatsubara, T. National Laboratory for High Energy Physics (KEK) 949, 787 Komisarcik, K. Indiana University 948 Komkov, Boris Petersburg Nucl. Phys. Institute, Russia PHENIX Konaka, A. TRIUMF 949, 926, 787 Kondo, Y. Kyoto University 885 Konisgmann, K. University of Freiburg 906, 885 Konstantinov, A. Institute High Energy Physics-Protvino STAR Koo, Heon Soo Yonsei University PHENIX Kopytine, Mikhail State University of New York at Stony Brook PHENIX Koran, P. Carnegie-Mellon University 906, 885 Kori, H. Osaka University 906 Korotkikh, V. L. Moscow State University 852 Korteling, R. Simon Fraser 900 Koslenko, N. Petersburg Nucl. Phys. Institute-Gatchina 914, 913 Kosonovsky, E. Tel-Aviv University 850 Kostin, M. A. Moscow State University 852 Kotchenda, L. Moscow Engineering Physics Institute STAR Kotchetkov, Dmitri University of California – Riverside PHENIX Kotov, I. Ohio State University 896 Kotula, J. Institute Nucl. Phys., Poland PHOBOS Kovalenko, A. Laboratory of High Energy Physics – Dubna STAR Kozik, T. Jagellonian University-Poland BRAHMS Kozjevnikov, A. Inst. for High Energy Physics 949 Kozlenko, N. G. Petersburg Nucl. Phys. Institute 958, 954, 953, 924, 909, 890 Kozlov, Alexandre Weizmann Inst. of Science PHENIX Kramer, M. A. City College of New York STAR, 891 Kraus, D. E. University of Pittsburgh 865 Krauss, R. Texas A&M University 820 Kravtsov, P. Moscow Engineering Physics Institute STAR Krechetov, Y. F. Tomsk Nucl. Phys. Institute-Russia pp2pp Kreisler, M. Lawrence Livermore National Laboratory 910 Krienen F. Boston University 926, 821 Kristal, M. NASA, Langley Research Cente NSRL Krizmanic, J. F. Goddard Space Flight Center 934 Krofcheck, D. University of Auckland 895 Kronenberg, A. Lawrence Berkeley National Laboratory NSRL, 960, 957, 947, 919, 898 Kronkvist, I. University of Minnesota 962, 952, 821 Krucker, T. Scripps Research Institute NSRL Kruger, K. Argonne National Laboratory 880 Kruglov, S. P. Petersburg Nucl. Phys. Institute 958, 954, 953, 924, 914, 913, 909, 890 Krueger, K. Argonne National Laboratory STAR, 925 Krupien, T. Brookhaven National Laboratory STAR Krylov, V. Joint Inst. Nuclear Research – Moscow PHOBOS Kuang, Y. College of William and Mary 935, 871 Kuberg, C. Los Alamos National Laboratory PHENIX Kubota, K. INS-University of Tokyo 906, 905 Kucewicz, W. University Illinois – Chicago PHOBOS Kuczewski, P. Brookhaven National Laboratory STAR Kudenko, Y. Institute for Nuclear Research-Moscow 949, 926 Kudomi, N. Osaka University 929 Kuhn, C. Institute Subatomics de Strasbourg STAR Kuhn, J. Rensselaer Polytechnic Institute 852

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Kullander, S. University Uppsala 954, 953 Kulbardis, A. Petersburg Nucl. Phys. Inst.-Gatchina 958, 954, 953, 914, 913 Kulinich, P. Massachusetts Inst. Technology PHOBOS Kumagai, A. University of Tsukuba 866 Kumar, P. Brookhaven National Laboratory NSRL Kumar, S. Yale University 896 Kume, K. Osaka University 929 Kunde, G. Yale University STAR, 896 Kuno, Y. KEK, National Laboratory for High Energy Physics 787 Kunz, C. Carnegie Mellon University STAR Kuo, C.M. National Central University – Taiwan PHOBOS Kupsc, A. University Uppsala 958, 954, 953 Kuraev, E. A. Budker Inst. For Nucl. Phys. 821 Kurashige, H. Kyoto University 926 Kurepin, A. INR – Russia 906 Kurglov, N. Moscow State University 852 Kuriki, M. National Laboratory for High Energy Physics (KEK) 787 Kurita, K. University of Tsukuba/RIKEN 950, 910, 866 Kurokawa, S. KEK 821 Kuroki, Yoshiaki University of Tsukuba PHENIX Kutuev, R. Particle Physics Laboratory – Dubna STAR Kuznetsov, A. Laboratory of High Energy Physics – Dubna STAR Kwiatkowski, K. Indiana University, Los Alamos National Laboratory 963, 950, 900 Kwon, Y. State University of New York at Stony Brook 877 Kwon, Y. Yonsei University PHENIX, 917 Kycia, T. F. Brookhaven National Laboratory 927, 924, 914, 913, 787

Lacasse, R. McGill University 877 Lacey, R. State University of New York at Stony Brook 895 Lahab, K. Wayne State University 877 Lainis, T. United States Military Academy at West Point 941 Lajoie, J. Yale University 864 Lajoie, J. Iowa State University PHENIX, 941 Lakehal-Ayat, L. SUBATECH-Nantes STAR Lamas-Velverde, J. Rice University STAR Lamler, M. Institute Nucl. Phys., Poland PHOBOS Lamont, M. University of Birmingham STAR Lamp, T. Loma Linda University NSRL Lan, A. University of Houston 931, 929, 907 Lan, K. J. University of Houston 940 Landgraf, J. Brookhaven National Laboratory STAR Landry, M. University of Manitoba 906, 885, 813 Landsberg, L. Inst. for High Energy Physics 949 Lang, K. University of Texas-Austin 871 Lange, S. University of Frankfurt STAR Lansdell, C. University of Texas – Austin STAR Larsen, R. Brookhaven National Laboratory 962, 821

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Larsen, R. Yale University 923 Larsen, T. M. University of Oslo BRAHMS Larson, K. D. University of New Mexico 811 Lane, F. Brookhaven National Laboratory STAR Lasiuk, Brian Yale University STAR Lauret, J. Brookhaven National Laboratory STAR Lawrence, L. Brookhaven National Laboratory 932 Lazarus, D. Brookhaven National Laboratory 865, 926 Lebedev, A. Brookhaven National Laboratory STAR Lebedev, Alexandre Iowa State University PHENIX Lebedev, V. Inst. For Nuclear Research, Academy of Sciences of Russia 865 Lebrun, P. Fermi National Laboratory 951 Leckey, Sean State University of New York at Stony Brook PHENIX LeCompte, T. Argonne National Laboratory 925 Lednitski, R. Laboratory of High Energy Physics – Dubna STAR Lee, J. H. Brookhaven National Laboratory BRAHMS, 866 Lee, L. University of Manitoba 929, 906, 885, 813 Lee, R. University of California-Irvine 940, 935, 871 Lee, S. Y. Indiana University 925, 880, 864 Lee, Y. K. Johns Hopkins University BRAHMS Lee, Y. Y. Brookhaven National Laboratory 962, 952, 880, 821 Lefeure, F. SUBATECH-Nantes STAR Lefort, T. Indiana University 900 Leipuner, L. Brookhaven National Laboratory 865, 923 Leitch, M. H. Los Alamos National Laboratory 890 Leksanov, A. Pennsylvania State University 850 Lemoal, C. SUBATECH-Nantes STAR Leonhardt, W. Brookhaven National Laboratory STAR Leontiev, V. Institute High Energy Physics-Protvino STAR Leray, S. LSN-CNRS 939 Leske, R. A. Caltech 934 Lesovoy, O. Michigan State Univesity STAR Leszcznski, P. Warsaw University, Poland STAR Lett, J.T. Colorado State University 898 Lettry, J. CERN 951 Levchenko, A.S. Inst. for Nuclear Research 949 LeVine, M. Brookhaven National Laboratory STAR, 866 Lewis, B. University of New Mexico 950, 949 Lewis, R. A. Penn State University 864 Li, C-H. Duke University NSLR Li, J. Institute High Energy Physics – Beijing STAR Li, K. K. Brookhaven National Laboratory 949, 926, 787 Li, Q. Wayne State University STAR, 877 Li, R. Wayne State University 941 Li, X. University of British Columbia 949 Li, Zhiming Inst. Particle Physics – China STAR Libby, B. Iowa State University 864 Lichtenstadt, J. Tel-Aviv University 835 Liljestrand, R. Bechtal Nevada 963, 939, 933 Lim, Hansang State University of New York at Stony Brook PHENIX Lin, W.T. National Central University – Taiwan PHOBOS Lin, X. Brookhaven National Laboratory NSRL Lindal, S. University of Oslo BRAHMS Lindenbaum, S. Brookhaven National Laboratory and City College of New York 891

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Lindenbaum, S. City College of New York STAR Lindenbusch, R. Indiana University 852 Lindgren, A.L. Bemidji State University 898 Lindstrom, P. Lawrence Berkeley Laboratory 896 Lipaev, V. Institute for High Energy Physics-Protvino 852 Lisa, M. Ohio State University STAR, 895 Littenberg, L. S. Brookhaven National Laboratory 949, 926, 923, 787 Liu, Feng Inst. Particle Physics – China STAR Liu, H. Kent State University 895 Liu, H. University of California-Riverside 866 Liu, J. University of Houston 904 Liu, Lianshou Inst. Particle Physics – China STAR Liu, Ming Los Alamos National Laboratory PHENIX Liu, Zhitu Inst. Particle Physics – China STAR Liu, Qingjun University of Washington STAR Liu, S. Duke University NSRL Liu, T. University of California-Irvine 940, 935 Liu, Y. M. Harbin University 895 Liu, W. Yale University 821 Liu, Zhitu Inst. Particle Physics – China STAR Ljubicic, T. Brookhaven National Laboratory STAR, 896 Llope, W. Rice University STAR, 896 Lloyd, E. Loma Linda University NSRL Lobashev, V. M. Institute for Nuclear Research 940 LoCurto, G. Max-Planck-Institute fuer Physik STAR LoCurto, G. Ohio State University 896 LoDestro, V. Brookhaven National Laboratory 951 Logashenko, I. Budker Inst. For Nucl. Phys. 962, 821 Lolos, G. J. University of Regina 958, 954, 927, 924, 914, 913 Long, H. University of California at Los Angeles STAR, 941 Longacre, R. S. Brookhaven National Laboratory STAR, 896, 891 Lopatin, I. Petersburgh Nucl. Phys. Institute 954, 953, 924, 914, 913 Lopez, A. Creighton University STAR Lopez, J.D. Los Alamos National Laboratory 963 Lopez-Noriega, M. Ohio State University STAR L⎯rstad, B. University of Lund BRAHMS LoSecco, J. M. University of Notre Dame 852 Love, W. A. Brookhaven National Laboratory STAR, 896, 891 Lovhoiden, G. University of Oslo-Norway BRAHMS Lowe, J. University of New Mexico 949, 926, 906, 865 Lowe, J. University of Brimingham 813, 811 Lozano, J. University Connecticut 865 Lozowski, B. Indiana U. Cyclotron Facility 950 Lu, C. Joseph Henry Laboratories, Princeton U. 951 Lu, J. Institute High Energy Physics – Beijing STAR Luccio, A. Brookhaven National Laboratory 925, 880 Ludlam, T. Brookhaven National Labortory STAR, 877 Lupton, J. Texas A&M University 957 Lutz, J-R. Institute Subatomics de Strasbourg STAR Lutz, M-T. Institute Subatomics de Strasbourg STAR Lutze-Mann, L. H. University of California 919, 898 Lynn, D. Brookhaven National Laboratory STAR, pp2pp, 896 Lystad, R. Fysisk Institute BRAHMS

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Ma, H. Brookhaven National Laboratory 923, 865 Madansky, L. Johns Hopkins University 896 Macdonald, J. TRIUMF 949, 936, 926, 787 Maeda, K. Tohoku University 929 Magahiz, R. Carnegie-Mellon University 885, 813 Maguire, C. Vanderbilt University 941 Magurno, B. Brookhaven National Laboratory 865 Mai, T. University of California – Davis STAR Majid, W. Yale University 865 Majka, R. D. Yale University STAR, 941, 864 Majka, Z. Jagellonian University-Poland BRAHMS Makarenko, T.M. Particle Physics Laboratory – Dubna STAR Makdisi, Y. Brookhaven National Laboratory 950, 925, 880, 850 Maliszewski, A. Warsaw University, Poland STAR Manak, J. J. University of Notre Dame 852 Mane, V. Brookhaven National Laboratory 932 Manglos, S. SUNY Health Science Center 856 Manko, Vladislav Kurchatov Institute, Russia PHENIX Manley, D. M. Kent State University 958, 954, 953, 927, 924, 914, 913 Manley, S. University of Rochester PHOBOS Manweiler, R. W. Valparaiso University 958, 954, 953, 927, 924, 914, 913 Marcin, M. R. University of Texas-Austin 871 Mardor, I. Tel-Aviv University 850 Mardor, Y. Tel-Aviv University 850 Margetis, S. Kent State University STAR Mariam, F. Brookhaven National Laboratory 925 Mariano, G. Colorado State University 919 Mark, S. K. McGill University 877 Markert, Christina Yale University STAR Marlow, D. R. Princeton University 787 Mao, X. Loma Linda University NSRL Mao, Yajun Inst. of Physical and Chemical Research PHENIX Mariam, F.G. Los Alamos National Laboratory 963 Marshak, M. L. University of Minnesota 850 Marshall, T. Indiana University 818 Martin, L. SUBATECH-Nantes STAR Martin, R. D. College of William and Mary 871 Marušic, A. Ruder Boskovic Institute/U.Calif-Los Angeles 927, 924, 914, 913, 909, 890 Marx, J. Lawrence Berkeley Laboratory STAR Marx, J. University of California-Berkeley 896, 891 Mashata, K. KEK 821 Maslowski, A. Texas A&M University NSRL Masui, Hiroshi University of Tsukuba PHENIX Matathias, Eftychios State University of New York at Stony Brook PHENIX Mathews, A. R. Los Alamos National Laboratory 963, 933 Matis, H. Lawrence Berkeley Laboratory STAR Matsumoto, Takashi University of Tokyo PHENIX

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Matulenko, Yu. A. Institute for High Energy Physics-Protvino STAR, 925 Matushevsky, E. Laboratory of High Energy Physics – Dubna STAR May, M. Brookhaven National Laboratory 931, 930, 929, 907, 906, 885 Mayer, C. Carnegie-Mellon University 906 Mayes, B. University of Houston 940, 931, 929, 907 Mazavia, D. HEP Inst. Tibilsi State University 865 McBreen, E. Brookhaven National Laboratory BRAHMS McCallum, R. W. Ames Laboratory 903 McClellan, J. B. Los Alamos National Laboratory 933 McCorkle, S. Brookhaven National Labortory 877 McCrady, R. Carnegie-Mellon University 885, 813 McDonald, K.T. Joseph Henry Laboratories, Princeton University 951 McDonald, S. University of California-Los Angeles 927, 924, 914, 913, 909, 890 McDonough, J. University of Texas-Austin 871 McGill, J.A. General Atomics 963 McGrath, R. State University of New York-Stony Brook 910, 895 McIntyre, E. K. Boston University 811 McKerley, M. Indiana University 852 McKinnon, M. University of California – Davis STAR McKnight, B. North Carolina A&T NSRL McLeod, D. University of Illinois-Chicago PHOBOS, 917 McNabb, R. University of Minnesota 962, 821 McPherson, R. Princeton University 787 McShane, T. Creighton University STAR Mead, J. Brookhaven National Laboratory NSRL Measday, D. F. University of British Columbia 811 Meier, R. Brookhaven National Laboratory 821 Meissner, F. Lawrence Berkeley Laboratory STAR Melnick, Y. Institute High Energy Physics-Protvino STAR Melnikov, Evgueni Inst. for High Energy Pysics, Russia PHENIX Meng, W-Z. Brookhaven National Laboratory 962, 952, 821 Menn, W. University of Siegen 934 Menzel, W. University of Basel 865 Merrill, F. Los Alamos National Laboratory 963, 885, 813 Merzliakov, Yu. Budker Inst. for Nucl. Phys. 821 Meschanin, A. Institute High Energy Physics-Protvino STAR Messer, M. Brookhaven National Laboratory STAR Metting, N. F. Pacific NW National Laboratory 960, 947, 919, 898 Mewaldt, R. A. Caltech 934 Meyer, C. Carnegie-Mellon University 924, 885, 813 Meyers, H. O. Indiana U. Cyclotron Facility 950 Meyers, P. D. Princeton University 787 Meziani, Z. Temple University 906 Mi. J. Brookhaven National Laboratory 962, 821 Miake, Y. University of Tsukuba PHENIX, 910, 866 Miachi, T. INS-University of Tokyo 906 Michalon, A. Institute Subatomics de Strasbourg STAR Michalouski, W. Brookhaven National Laboratory STAR Michalowski, J. Institute Nucl. Phys., Poland PHOBOS Mignerey, A. University of Maryland PHOBOS, 917, 866 Mikelsen, M. University of Oslo BRAHMS Mildenberger, J. TRIUMF 949, 787 Milder, A. University of Texas-Austin 871 Miller, D. University of Minnesota 821

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Miller, J. Lawrence Berkeley National Laboratory NSRL, 966, 960, 957, 947, 919, 898 Miller, J. P. Boston University 962, 952, 924, 821 Miller, J. R. National High Magnetic Field Laboratory 951 Miller, Michael Yale University STAR Miller, T. Vanderbilt University PHENIX, 941 Milosevich, Z. Carnegie-Mellon University STAR, 896, 895 Milov, Alexandre Weizmann Inst. of Science PHENIX Minaev, N. Institute High Energy Physics-Protvino STAR Minami, S. Osaka University 906 Mincer, A. New York University 940 Mineev, O. Institute for Nuclear Research 949, 926 Ming, G. Brookhaven National Laboratory NSRL Minor, E. Pennsylvania State University 850 Minor, R. Lawrence Berkeley Laboratory STAR Mioduszewski, S. University of Tennessee 910 Miskowiec, D. State University of New York at Stony Brook 877 Mitchell, J. Brookhaven National Laboratory 896 Mitchell, J. W. NASA-Goddard Space Flight Center 934, 896 Miyachi, T. INS-University of Tokyo 905 Miyajima, M. Fukui University 949 Mizumachi, Y. Science University of Tokyo 821 Mizuno, Y. Osaka University 929 Mogavero, E. Brookhaven National Laboratory 896 Moinester, M. A. Tel-Aviv University 835 Moiseenko, V.A. Particle Physics Laboratory – Dubna STAR Mokhov, M. V. Fermi National Laboratory 951 Molzon, W. University of California-Irvine 940, 935, 871 Monteleone, D. Brookhaven National Laboratory NSRL Moore, C. F. University of Texas at Austin STAR, 931, 907 Morgan, D.V. Bechtel Nevada 963 Morgan, G. L. Los Alamos National Laboratory 939 Morgan, T. Max-Planck-Institute fuer Physik STAR Morgan, W. University of California 919 Mori, Y. KEK 880 Morikubo, K. Osaka University 929 Morimoto, T. KEK 787 Moriwaki, T. University of California-Los Angeles 914, 913, 909, 890 Morley, K. B. Los Alamos National Laboratory 963, 933, 920, 900 Morosov, B. University Uppsala 954, 953 Morozov, V. Lawrence Berkeley Laboratory STAR Morris, C. Los Alamos National Laboratory 963, 933, 931, 920, 907 Morrison, D. University of Tennessee 910 Morrison, T. George Washington University 914, 913, 909, 890 Morse, W. M. Brookhaven National Laboratory 962, 952, 821Moskowitz, B. Brookhaven National Laboratory 866 Mosley, A. Loma Linda University NSRL Mottershead, C. T. Los Alamos National Laboratory 963, 933 Moulson, M. Columbia University 910, 866 Mueller, K. Los Alamos National Laboratory 933, 920 Muentz, C. Brookhaven National Laboratory 866 Muerleilier, M. University of Houston 929 Mukhin, V. Inst. for High Energy Physics 949 Mukhopadhyay, D. Weizmann Inst. of Science PHENIX Mulkey, Z. Abilene Christian University 914, 913

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Mülmenstädt, J. Massachusetts Inst. Technology PHOBOS Munhoz, M. Wayne State University 941 Munhoz, M. Institute de Fisica da University de Sao Paulo STAR Muniruzzaman, M. University of California – Riverside PHENIX Muramatsu, N. Osaka University – Research Ctr. For Nucl. Phys. 949, 787 Murnane, J. Texas A&M University 957 Murray, M. J. University of Kansas BRAHMS Murray, M.M. Los Alamos National Laboratory 963 Mutchler, G. S. Rice University STAR, 896, 891, 818 Miyachi, T. University of Tokyo 906 Muto, Ryptaro RIKEN PHENIX Myers, Stuart State University of New York at Stony Brook PHENIX

Nachaet, M. Wayne State University 896 Nagae, T. KEK 930, 929, 906, 905 Nagamiya, S. Columbia University 866 Nagasaka, Yasushi Nagasaki Inst. of Applied Science PHENIX Nagle, J. Columbia University 941 Nagle, J. Yale University 864 Naidu, M. Brookhaven National Laboratory NSRL Naing, W. Hampton University 905 Nakada, Y. RIKEN 925 Nakai, K. Science University of Tokyo 936 Nakamura, M. Kyoto University 950 Nakano, J. University of Tokyo 929, 906, 905, 787 Nakano, T. Osaka University – Research Ctr. For Nucl. Phys. 949 Nakazawa, K. Gifu University 964 Namboordiri, M. N. Lawrence Livermore National Laboratory 910, 866 Nanal, V. Argonne National Laboratory 917 Nandi, Basanta University of California – Riverside PHENIX Napolitano, J. Rensselaer Polytechnic Institute 852 Narici, L. University of Rome, Thor Vergara NSRL, 957 Natarajan, M. University of Texas 957, 919 Natowitz, J. Texas A&M University BRAHMS Naumenko, G. A. Tomsk Nucl. Phys. Institute-Russia pp2pp Navon, I. Tel-Aviv University 850 Nazakawa, K. Gifu University 906 Neal, M. Massachusetts Inst. Technology PHOBOS Neerman, C. University of North Carolina 905 Nefkens, B. University of Calif.-Los Angeles 958, 954, 953, 931, 927, 924, 914, 913, 909, 907, 890 Nehmeh, S. Wayne State University 896 Nelson, G. Loma Linda University NSRL, 957, 919 Nelson, G. A. Jet Propulsion Laboratory 898 Nelson, J. University of Birmingham STAR, 813 Nemethy, P. New York University 952, 940 Neuman, B. University of Kansas BRAHMS Nevski, P. Brookhaven National Laboratory STAR

157

Newby, Robert University of Tennessee PHENIX Newsom, C. University of Iowa pp2pp Ng, B. Fermi National Laboratory 932 Ng, C. F. Brookhaven National Laboratory 787 Nicholson, H. Mt. Holyoke College 850 Nielsen, B. Svane Niels Bohr Inst. for Astronomy, Physics and Geophysics-U.Copenhagen BRAHMS Nikas, D. Brookhaven National Laboratory 962 Nikitin, V. Particle Physics Laboratory – Dubna STAR Nilsen, B. S. University of Minnesota 869 Nishide, J. Fukui University 949 Noble, A. University of British Columbia 811 Nociforo, C. University of Catania 896 Nogach, L. V. Institute for High Energy Physics-Protvino STAR, 925 Nojima, K. NIRS/HIMAC NSRL Nomachi, M. Osaka University 949, 929 Nomura, T. Kyoto University 949, 926 Nord, P. Valparaiso University 914, 913 Norem, J. H. Argonne National Laboratory 951, 932 Norman, A. College of William and Mary 935 Norman, B. Kent State University STAR Normand, L. McGill University 877 Nouicer, R. University of Illinois PHOBOS Noumi, H. KEK 930, 929 Novakova, P. Brookhaven National Laboratory STAR Nozar, M. Rensselaer Polytechnic Institute 852 Numao, T. TRIUMF 949, 926, 787 Nurushev, S. B. Institute for High Energy Physics-Protvino STAR, 950, 925 Nurushev, S. B. Moscow Engineering Physics Institute pp2pp Nussbaum, T. Rice University STAR Nyanin, Alexander Kurchatov Institute, Russia PHENIX Nyman, M. Lawrence Berekeley Laboratory 966 Nystrand, Joakim Lund University PHENIX

Obenaus, A. Loma Linda University NSRL Obot, V. Texas Southern University 904 Obraztsov, V. Inst. for High Energy Physics 949 O’Brien, E. Brookhaven National Labortory 877 O’Donnell, J. Los Alamos National Laboratory 931, 907 Odyniec, G. Lawrence Berkeley National Laboratory STAR, 895 Ogawa, A. Pennsylvania State University STAR, 850 Ogilvie, C. Massachusetts Institute of Technology 917, 866 Okada, K. Kyoto-Sangyo University 813 Okomura, M. RIKEN 950, 925, 880 Okorokov, V. Moscow Engineering Physics Institute STAR Okumo, H. National Laboratory for High Energy Physics (KEK) 787 Olchanski, K. Brookhaven National Laboratory BRAHMS, 852 Oldenburg, M. Max-Planck-Institute fuer Physik STAR Olmsted, J. Kent State University 958

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Olness, J. Brookhaven National Laboratory BRAHMS, 866 Olshevsky, R. TRIUMF 835 Olson, D. Lawrence Berkeley National Laboratory STAR, 895 Olszewski, A. Brookhaven National Laboratory PHOBOS Olszewski, A. Institute of Nucl. Phys.-Krakow 868 Oltchak, A. Moscow Engineering Physics Institute STAR Omata, K. INS-University of Tokyo 949, 906 Onderwater, C. J. G. University of Illinois 962, 952, 821 O’Neill, P. MRC Radiation & Genome Stability Unit, UK NSRL Onel, Y. University of Iowa pp2pp Ono, Masava University of Tsukuba PHENIX Orduna, J. Stanford Reseach Institute NSRL Orlov, Y. Cornell University 962, 952, 821 Ormes, J. F. Goddard Space Flight Center 934 Osborne, L. Massachusetts Inst. Technology PHOBOS Ososkov, G. Laboratory of High Energy Physics – Dubna STAR Ostrovidov, A. I. Moscow State University 852 Otomo, A. National Laboratory for High Energy Physics (KEK) 787 Ott, G. University of Texas – Austin STAR Ouerdane, D. Niels Bohr Inst. for Astronomy, Physics and Geophysics BRAHMS Outa, H. KEK 930, 929, 906, 905 Overlin, M. University of California at Irvine 940 Oyama, K. University of Tokyo PHENIX, 917 Ozben, C. Brookhaven National Laboratory 962, 952, 821

Padley, P. TRIUMF 787 Paganis, S. University of Texas 896 Page, S. University of Manitoba 906, 856, 813 Pai, C. Brookhaven National Labortory 821 Pak, R. Brookhaven National Laboratory PHOBOS Pak, R. University of Rochester 917 Pal, Dipali Weizmann Inst. of Science PHENIX Paley, J. Boston University 962, 821 Palmer, R. B. Brookhaven National Laborary 951 Pandey, S. Wayne State University 896 Pandya, P. Loma Linda University NSRL Panebratsev, Y. J.I.N.R.-Dubna STAR, 850 Panitkin, S. State University of New York at Stony Brook 877 Panitkin, S. Kent State University 895 Papandreou, Z. George Washington University/U. Regina 958, 954, 927, 924, 914, 913, 909, 890 Park, H-S. Lawrence Livermore National Laboratory 933 Park, I. University of Rochester PHOBOS Parks, D. University of Houston 904 Paschke, K. Carnegie-Mellon University 906, 885 Passaneau, J. Pennsylvania State University STAR Patterson, J. University of Colorado 914, 913 Paul, P. State University of New York at Stony Brook 877

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Paul, S. Brookhaven National Laboratory NSRL Pavlinov, A. I. Institute for High Energy Physics-Protvino 925 Pavlinov, Alexi Wayne State University STAR Pawlak, T. Warsaw University, Poland STAR Pazuchanics, P.D. Los Alamos National Laboratory 963 Pearson, J.E. Los Alamos National Laboratory 963 Peaslee, D. University of Maryland 958, 954, 953, 924 Pecaut, M. Loma Linda University NSRL Pedlar, T. Northwestern University 852 Pena, L. Brookhaven National Laboratory NSRL Pendzick, A. Brookhaven National Laborabory 951 Peng, J-C. Los Alamos National Laboratory 931, 907, 890 Pentia, M. Laboratory of High Energy Physics – Dubna STAR Penzo, A. University of Trieste and Sezione INFN-Italy pp2pp Perepechkin, Y. INR – Russia 906 Perez, C. Loma Linda University NSRL Pernegger, H. CERN PHOBOS Peryt, W. Warsaw University, Poland STAR Peterson, G. A. University of Colorado 953, 931, 937, 924, 907 Peterson, J. University of Colorado 914, 913 Peterson, R. J. University of Colordo 958, 954, 937, 927 Petkovic, T. University of Zagreb 931, 907 Petrenko, S. Inst.for High Energy Physics 949 Petridis, A. Iowa State University 941 Petrov, V.A. Particle Physics Laboratory – Dubna STAR Petukhov, Y. Particle Physics Laboratory – Dubna STAR Phaisangitisakul, N. University of California 958 Phillips, S. George Washington University 909 Piao, C. Columbia University NSRL Piasetzky, E. Tel-Aviv University 850 Piazza, T. State University of New York at Stony Brook 877 Pichot, P. SUBATECH-Nantes STAR Piekarz, H. Brandeis University 829 Piekarz, H. Flordia State University 820 Pienkowski, L. Warsaw University 900 Pile, P. H. Brookhaven National Laboratory 931, 930, 929, 924, 907, 906, 885, 813 Pinganaud, W. SUBATECH-Nantes STAR Pinkenburg, C. State University of New York at Stony Brook 895 Pinsky, L. University of Houston 940, 931, 929, 907 Pislak, S. Yale University 926 Pislak, S. University of Zurich 865 Pitt, M. Virginia Polytechnic Institute 926 Planeta, R. Jagellonian University BRAHMS Planinic, M. Indiana University STAR Planinic, M. University of Zagreb 931, 907, 905 Platner, E. D. Rice University STAR, 896, 891 Plesko, M. Massachusetts Institute of Technology PHOBOS Pless, I. Massachusetts Institute of Technology 941, 864 Pluta, J. Warsaw University, Poland STAR Poblaguev, A. A. Inst. For Nuclear Research, Academy of Sciences of Russia 926, 865 Pocanic, D. University Virginia 926 Polk, I. Brookhaven National Laboratory 821 Polly, C. University of Illinois 962, 821 Polychronakas, V. Brookhaven National Laboratory 923

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Pommot-Maia, M. Yeshiva University 949, 871 Pope, J. K. Yale University 864 Pope, Joseph University of Tennessee PHENIX Poplaguev, A. Inst. for Nuclear Research, Moscow 923 Popov, A. V. Inst. For High Energy Physics, Protvino, Russia 852 Popovic, M. Fermi National Laboratory 932 Porile, N. T. Purdue University STAR, 941, 895, 864 Poskanzer, A. Lawrence Berkeley Laboratory STAR Postoev, V. Inst. For Nuclear Research, Academy of Sciences of Russia 865 Potenza, R. University of Catania 896 Potrebenikova, E. Laboratory of High Energy Physics – Dubna STAR Potylitsin, A. P. Tomsk Nucl. Phys. Institute-Russia pp2pp Poutissou, J-M. TRIUMF 949, 787 Poutissou, R. TRIUMF 949, 787, 926 Pozharova, E. A. Institute of Theory and Experimental Physics-Moscow 868 Prakhov, S. N. University of California 958, 954, 953 Prasad, S. C. SUNY Health Science Center 856 Pratt, R. George Washington University 909 Prebys, E. J. Joseph Henry Laboratories, Princeton University 951 Pretz, J. Yale University 962, 821 Price, J. W. University of California-Los Angeles 958, 954, 953, 890 Price, P. B. University of California-Berkeley 916 Prigl, R. Brookhaven National Laboratory 962, 952, 951, 821 Prindle, Duncan J. University of Washington STAR Prokhavatilov, M. INR-Russia 906 Prokop, J. George Washington University 909 Proskuryakov, A. Moscow State University 923, 852, 865 Protopopescu, S. D. Brookhaven National Laboratory 818 Pruneau, C. Wayne State University STAR, 941, 877, 864 Przewoski, B. V. Indiana University Cyclotron Facility 950 Pulver, M. University of California-Los Angeles 914, 913 Purwar, Anuj State University of New York at Stony Brook PHENIX Puskar-Pasewicz, J. Indiana University STAR Pusterla, M. University of Padova-Italy pp2pp Putschke, J. Max-Planck-Institute fuer Physik STAR Pyatt, B. Brookhaven National Laboratory NSRL

Qian, Z. Fermi National Laboratory 932 Quinn, B. Carnegie-Mellon University 931, 924, 907, 906, 885, 813, 811

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Rabin, B. University of Maryland Baltimore County NSRL, 960, 957, 947, 919, 898 Rabin, M. S. Z. University of Massachusetts 941, 864 Radeka, V. Brookhaven National Laboratory NSRL Radomski, S. Warsaw University, Poland STAR Radutsky, G. M. Tomsk Nucl. Phys. Institute-Russia pp2pp Rafelski, M. Brookhaven National Laboratory PHOBOS Rai, G. Lawrence Berkeley National Laboratory STAR, 910, 895 Rakness, G. Indiana University STAR Ramakrishnan, E. Texas A&M University 900 Rami, F. IRES and Universite Louis Pasteur BRAHMS Ramirez, A. Arizona State University 958, 914, 913 Ramsay, D. University of Manitoba 885, 813 Ramsberg, E. Fermi National Accelerator Laboratory 949 Ramsey, W. D. University of Manitoba 906 Rangacharyulu, C. University of Saskatchewan 936 Ransom, R. Rutgers University 885 Rasin, V. INR – Russia 906 Ratner, L. Brookhaven National Laboratory 925, 880 Ravel, O. SUBATECH-Nantes STAR Ravn, H. CERN 951 Ray, F. Colorado State University NSRL Ray, L. University of Texas – Austin STAR Rbeiz, M. Massachusetts Inst. Technology PHOBOS Read, K. University of Tennessee 910 Rebeck, N. Creighton University STAR Reber, E. Idaho National Engineering Laboratory 877 Redding, R. Creighton University STAR Redin S. I. Yale University 962, 821 Redlinger, G. TRIUMF 949, 926, 787 Reece, K. Brookhaven National Laboratory 880 Reed, C.J. Massachusetts Inst. Technology PHOBOS Reed, J. Syracuse University 951, 856 Reginato, L. L. Lawrence Berkeley National Laboratory 951 Rehak, P. Brookhaven National Laboratory 865 Reichold, D. Creighton University STAR Reid, Jeffrey University of Washington STAR Reid, J. Vanderbilt University 864 Reiley, P. University of Texas 941, 896 Reimer, P. E. University of Illinois-Urbana-Champaign 924 Rein, L. NASA, Johnson Space Cente NSRL Relyea, D. R. Princeton University 787 Remsberg, L. P. Brookhaven National Laboratory PHOBOS, 910, 909, 900, 866 Ren, Y. University of Houston 904 Renfordt, R. University of Frankfurt STAR Renoid, C. SUBATECH-Nantes STAR Reshetin, A. INR - Russia 906 Retiere, F. Lawrence Berkeley Laboratory STAR Reuter, M. University of Illinois – Chicago PHOBOS Reygers, Klaus University of Munster PHENIX Riabov, Victor Petersburg Nucl. Phys. Institute, Russia PHENIX Rice, O. Brookhaven National Laboratory NSRL Ridiger, A. Moscow Engineering Physics Institute STAR Riemer, B. W. Oak Ridge National Laboratory 951

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Rigalleau, L-M. SUBATECH-Nantes STAR Rightnar, S. Loma Linda University NSRL Rijssenbeek, M. State University of New York at Stony Brook pp2pp Riley, P. J. University of Texas-Austin 871 Rinaldi, A. University of Rome NSRL Rinckel, T. Indiana U. Cyclotron Facility 950, 948 Rind, O. Boston University 962, 952, 821 Riso, Jose Wayne State University STAR Ristea, C. University Bucharest BRAHMS Ristea, O. University Bucharest BRAHMS Ritchie, J. L. University of Texas-Austin 871 Ritchie, S. University of California – Davis STAR Rithidech, K. State University of New York at Stony Brook NSRL Ritter, H. G. Lawrence Berkeley National Laboratory STAR, 895 Ritter, J. University of Illinois-Urbana-Chapaign 924 Roberts, B. L. Boston University 962, 952, 821, 811 Roberts, J. B. Rice University STAR, 818 Robinson, D. K. Case Western Reserve University 856, 811 Robmann, P. University of Zurich 865 Roehrich, D. University of Frankfurt STAR Roehrich, D. Fysisk Institute BRAHMS Rogachevskiy, O. Laboratory of High Energy Physics – Dubna STAR Roland, C. Massachusetts Inst. Technology PHOBOS Roland, G. Massachusetts Inst. Technology PHOBOS Romero, J. University of California-Davis STAR, 895 Roos, P. G. University of Maryland 931, 907 Rosati, M. Brookhaven National Laboratory 910, 877 Rose, A. Vanderbilt University 941 Rose, Andrew Wayne State University PHENIX, STAR Roser, T. Brookhaven National Laboratory 951, 950, 932, 925, 880, 850 Rosenberg, L. Massachusetts Inst. Technology PHOBOS Ross, G.D. Massachusetts Inst. Technology PHOBOS Rössle, R. Freiburg University 813, 811 Rotondo, F. S. Yale University 896, 864 Rowland, D. Texas A&M University 900 Roy, C. SUBATECH-Nantes STAR Roy, D. Brookhaven National Laboratory NSRL Roy, J. TRIUMF 787 Rozon, F. Carnegie-Mellon University 788 Rozon, M. TRIUMF 787 Rozon, M. University of Alberta 813 Ruangma, A. University of Maryland 917 Rubin, P. University of Richmond 935, 871 Rumbers, Audrey Wayne State University STAR Runco, M. Moscow Engineering Physics Institute STAR Runtzo, M. F. IHEP 950 Runtzo, M. F. Moscow Engineering Physics Institute pp2pp Rusek, A. Brookhaven National Laboratory NSRL, pp2pp, 961, 931, 930, 907, 906, 905, 885, 813 Russ, D. Carnegie Mellon University 896 Russ, D. University of Maryland 917 Russell, G. Los Alamos National Laboratory 938 Russell, J. J. University of Massachusetts-Dartmouth 850 Russo, G. University of Catania 896 Rusek, A. Brookhaven National Laboraory 929

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Russell, S. Brookhaven National Laboratory NSRL Rust, D. R. Indiana University 852 Ryabchikov, D. I. Inst. For High Energy Physics, Protvino, Russia 852 Ryan, J. Massachusetts Institute of Technology 866 Rydberg, B. Lawrence Berkeley Laboratory NSRL, 957 Rykalin, V. Inst. for High Energy Physics 949 Rykov, Vladimir Wayne State University STAR Ryskulov, N. Budker Institute for Nucl. Phys. 962, 821 Ryu, Sangsu Yonsei University PHENIX

Sachelashvili, T. HEP Inst. Tibilsi State University 865 Sadler, M. Abilene Christian University 927, 914, 913, 909, 890 Sagerer, J. University of Illinois – Chicago PHOBOS Saito, N. University of Kyoto 813, 811 Saito, N. RIKEN 950, 925 Sajai, E. Osaka University 929 Sakaguchi, Takao University of Tokyo PHENIX Sakai, H. University of Tokyo 925 Sakai, Masashi Nagasaki Inst. of Applied Science PHENIX Sakamoto, S. KEK 821 Sakitt, M. Brookhaven National Laboratory pp2pp, 856, 811 Sako, H. Institute for Nucler Study-University of Tokyo 866 Sakrejda, I. Lawrence Berkeley Laboratory STAR, 896 Sakuma, Fuminori Kyoto University PHENIX Salomon, M. TRIUMF 811 Salur, Sevil Yale University STAR Samulyak, R. Brookhaven National Laboratory 951 Sandberg, D. Niels Bohr Inst. for Astonomy, Physics and Geophysics BRAHMS Sanders, R. Brookhaven National Laboratory 821 Sanders, S. J. University of Kansas BRAHMS Sandweiss, J. Yale University STAR, 941, 864 Sangster, T. C. Lawrence Livermore National Laboratory 910, 866 Sanita, W. University of Rome, Thor Vergara 957 Sanjari, A. University of Notre Dame 852 Sarin, P. Massachusetts Inst. Technology PHOBOS Sarracino, J. Los Alamos National Laboratory 963, 933, 920 Sarycheva, L. I. Moscow State University 852 Sasao, N. Kyoto University 926 Sasaki, T. Osaka University 787 Satinover, Jeffrey Yale University STAR Sato, R. Osaka University 929 Sato, S. University of Tsukuba 866 Sato, Susumu Japan Society for the Promotion of Science PHENIX Sato, T. KEK, National Laboratory for High Energy Physics 949, 880, 821, 787 Saulys, A. Brookhaven National Laboratory 896, 891 Saunders, A. Los Alamos National Laboratory 963 Savin, I. Particle Physics Laboratory – Dubna STAR

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Sawada, Shinva KEK PHENIX Sawafta, R. North Carolina A&T University 931, 930, 929, 909, 907, 906, 905, 885 Sawafta, R. Brookhaven National Laboratory 906, 890, 885, 856, 813 Sawh, R-P. University of Houston 904 Sawicki, P. Institute Nucl. Phys., Poland PHOBOS Scaduto, J. Brookhaven National Laboratory 963, 951 Scanlan, R. M. Lawrence Berkeley Laboratory 951 Schambach, J. University of Texas STAR, 896 Scharenberg, R. P. Purdue University STAR, 941, 895, 864 Scheetz, R. Brookhaven National Laboratory BRAHMS Schindler, S. M. Caltech 934 Schiavon, P. University of Trieste and Sezione INFN-Italy pp2pp Schimmerling, W. NASA Headquarters 957 Schlei, Bernd Los Alamos National Laboratory PHENIX Schmidt, H. Freiburg University 885, 813 Schmidt-Sorensen, J. University of Lund-Sweden BRAHMS Schmitt, H. University of Freiburg 906 Schmitz, N. Max-Planck-Institute fuer Physik STAR Schroeder, L. University of California-Berkeley 891 Schroeder, L. Lawrence Berkeley National Laboratory STAR, 895 Schue, J. Creighton University STAR Schuetlauf, A. Max-Planck-Institute fuer Physik STAR Schumacher, R. A. Carnegie-Mellon University 924, 906, 885, 813 Schweda, K. Lawrence Berkeley Laboratory STAR Scott, E. Indiana University 852 Sculli, J. New York University 940 Sedykh, S. University of Illinois 962, 924, 821 Seger, J. Creighton University STAR Sekimoto, M. KEK 906 Seliverstov, D. Moscow Engineering Physics Institute STAR Semenov, V. Inst. for High Energy Physics, Protvino 923 Semertzidis, Y. Brookhaven National Laboratory 962, 821 Sengupta, K. Louisiana State University 868 Sekimoto, M. INS-University of Tokyo 906 Semertzidis, Y. K. Brookhaven National Laboratory 952 Serednyakov, S. Budker Institute for Nucl. Phys. 821 Serra, V. Loma Linda University NSRL Seth, K. Northwestern University 924, 852 Setlow, R. Brookhaven National Laboratory 957 Seto, R. University of California-Riverside 917, 866 Seyboth, J. Max-Planck-Institute fuer Physik STAR Seyboth, P. Max-Planck-Institute fuer Physik STAR Seyfarth, H. Forschungszentrum Jülich 890 Seymour, R.J. University of Washington STAR Shafi, A. George Washington University 958, 914, 913 Shahaliev, E. Laboratory of High Energy Physics – Dubna STAR Shalnov, A. Moscow Engineering Physics Institute STAR Shatunov, Yu. M. Budker Institute for Nucl. Phys. 962, 821 Shaw, Matthew Los Alamos National Laboratory PHENIX Shea, J. University of Maryland 866 Sheen, J. Wayne State University 896, 877 Shein, I. Institute for High Energy Physics-Protvino PHENIX, 852 Shephard, W. D. University of Notre Dame 852 Shestermanov, K. Institute High Energy Physics-Protvino STAR

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Shibata, T. Osaka University 829 Shigaki, Kenta University of Tokyo PHENIX Shileev, K. INR - Russia 906 Shima, A. University of Tokyo 957 Shimanskiy, S. J.I.N.R. - Dubna STAR, 850 Shimizu, Y. Osaka University 906, 905 Shimoyama, T. Fukui University 949 Shin, B. University of Saskatchewan 936 Shin, Y. H. Yonsei University 910 Shin, S. Loma Linda University NSRL Shina, Toshiyuki Los Alamos National Laboratory PHENIX Shinkawa, T. National Defense Academy of Japan 949, 787 Shiva Kumar, B. Yale University 864 Shvetsov, V.S. Particle Physics Laboratory – Dubna STAR Shoemaker, F. C. Princeton University 787 Shukitt-Hale, Barbara Univerity of Maryland NSRL Sichtermann, E.P. Yale University 962 Sileev, K. INR-Russia 906 Silin, I.N. Particle Physics Laboratory – Dubna STAR Silvermyr, David Lund University PHENIX Simon, M. University of Siegen 934 Simone, G. National Inst. of Health, Rome, Italy NSRL, 957 Simos, N. Brookhaven National Laboratory 951 Sinden, R. R. Texas A&M University 960, 947 Sinev, N. B. Moscow State University 852 Singh, R. P. Lawrence Berekley Laboratory 966 Skank, H. Ames Laboratory 941, 864 Skelly, J. E. Brookhaven National Laboratory 880 Skoro, G. Laboratory of High Energy Physics – Dubna STAR Skorotko, T. Yu. Institute of Theory and Experimental Physics-Moscow 868 Skulski, W. University of Rochester PHOBOS Skutnik, Steven Iowa State University PHENIX Slaughter, A. J. Yale University 941, 864 Slaughter, D. Lawrence Livermore National Laboratory 939 Šlaus, I. Ruder Boskovic Institute 954, 953, 927, 914, 913, 909, 890 Sleege, G. Ames Laboratory 941, 864 Smilenov, . Columbia University NSRL Smirnitski, V. A. Institute of Theory and Experimental Physics-Moscow 868 Smirnoff, N. Yale University STAR, 896 Smith, A. Loma Linda Univesity NSRL Smith, A. J. S. Princeton University 787 Smith, B. University of New Mexico 950 Smith, D. L. Argonne National Laboratory 951 Smith, G. TRIUMF 926 Smith, G. A. Penn State University 864 Smith, J. Rensselaer Polytechnic Institute 852 Smith, P. T. Indiana University 852 Smykov, L. Laboratory of High Energy Physics – Dubna STAR Snead, C. L. Brookhaven National Laboratory 939, 903 Snellings, R. Lawrence Berkeley Laboratory STAR Snydstrup, L. Brookhaven National Laboratory 821 Sobolewski, Z. Syracuse University 856 Solberg, K.A. Indiana University STAR Soldatov, A. Institute for High Energy Physics-Protvino 852

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Solodov, E. Budker Institute for Nucl. Phys. 962, 821 Soloviev, L. Institute High Energy Physics-Protvino STAR Soltz, R. Lawrence Livermore National Laboratory 933, 910, 866 Soluk, R. TRIUMF 787 Som, P. State University of New York at Stony Brook NSRL Sonderegger, P. CERN 896 Sonnadara, U. University of Pittsburgh 877 Sorensen, P. University of California-LosAngeles STAR Sorensen, S. University of Tennessee 910 Sosin, Z. Jagellonian University BRAHMS Sossong, M. University of Illlinois 962, 821 Soukas, A. Brookhaven National Laboratory 880 Sowinski, J. Indiana University STAR, 948 Sowinski, M. Institute Nucl. Phys., Poland PHOBOS Spampinato, P. T. Oak Ridge National Laboratory 951 Spinelli, P. University of Bari 864 Spinka, H. Argonne National Laboratory STAR, 958, 954, 952, 927, 925, 914, 913, 880 Sposato, S. H. Washington University 934 Srivastava, B. K. Purdue University STAR, 895, 864 St. Claire, L. Lawrence Berkeley Laboratory STAR Stachel, J. State University of New York at Stony Brook 877 Stack, K. Creighton University STAR Stanislaus, S. Valparaiso University 958, 954, 953, 927, 924, 914, 913 Stankus, Paul Oak Ridge National Laboratory PHENIX Stanskas, J. University of Maryland 917 Starinsky, N. McGill University 877 Starostin, A. Petersburg Nucl. Phys. Institute/UCLA 958, 954, 953, 927, 924, 914, 913, 890 Staszel, P. Jagellonian, University BRAHMS Staudenmaier, H. M. University of Karlsruhe 958, 954, 953, 927, 924, 914, 913 Steadman, S. G. Massachusetts Institute of Technology 866 Stearns, R. Vassar College 788, 813 Steinberg, P.A. Brookhaven National Laboratory PHOBOS Steinmetz, A. Yale University 962, 821 Stepanov, Mikhail New Mexico State University PHENIX Stephans, G. S. F. Massachusetts Institute of Technology PHOBOS, 917, 866 Stephens, D. NSCORTLBNL-CSU 957 Stephenson, E. J. Indiana Univeristy STAR, 948 Stepien, P. Warsaw University, Poland STAR Sterbenz, S. Los Alamos National Laboratory 963 Stevens, A. J. Brookhaven National Laboratory 787 Stewart, J. University of Pennsylvania NSRL Stienike, D. L. University of Notre Dame 852 Stillman, A. Brookhaven National Laboratory 821 Stock, R. University of Frankfurt STAR Stodulski, M. Institute Nucl. Phys., Poland PHOBOS Stolpousky, Sasha Wayne State University STAR Stone, E. C. Caltech 869 Stone, N. Lawrence Berkeley National Laboratory 895 Stone, J. R. Princeton University 787 Story, M. University of Texas NSRL Stotzer, R. University of New Mexico 885, 865, 813 Straczek, A. Institute Nucl. Phys., Poland PHOBOS Strand, R. C. Brookhaven National Laboratory 949, 926, 787 Streitmatter, R. E. Goddard Space Flight Center 934

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Strek, M. Institute Nucl. Phys., Poland PHOBOS Strikhanov, M. N. IHEP 950 Strikhanov, M. N. Moscow Engineering Physics Institute STAR, pp2pp Stringfellow, B. C. Purdue University STAR, 864 Stroebele, H. University of Frankfurt STAR Struck, C. University of Frankfurt STAR Suaide, A. Institute de Fisica da University de Sao Paulo STAR Suda, T. Tohoku University 929 Sugarbaker, E. Ohio State University STAR, 896 Sugita, Noriyuki Hiroshima University PHENIX Sugitate, Toru Hiroshima University PHENIX Sugimoto, S. INS-University of Tokyo 949, 787 Suire, C. Institute Subatomics de Strasbourg STAR Suk, Joon Young Korea University PHENIX Sukaton, R. Carnegie-Mellon University 813, 811 Sukhanov, A. Brookhaven National Laboratory PHOBOS Sulak, L. R. Boston University 962, 821 Sulanke, T. Indiana University 852 Sum, V. University of Manitoba 885, 813, 811 Sumbera, M. Laboratory of High Energy Physics – Dubna STAR Sun, R. Washington Universitiy NSRL Supek, I. Rudjer Boškovic Institute 958, 954, 953, 931, 914, 913, 907 Sutherland, B. M. Brookhaven National Laboratory NSRL, 960, 957, 947, 919, 898 Sutherland, J. University of Pennsylvania, School of Medicine NSRL Sutter, R. Brookhaven National Laboratory 931, 929, 909, 907, 906, 905, 890, 885, 856, 813 Sutton, C. S. Mt. Holyoke College 850 Suzuki, Miwako University of Tsukuba PHENIX Švarc, A. Ruder Boskovic Institute 954, 953, 914, 913, 890 Svirida, D. N. Inst. for Theoretical and Experimental Physics-Moscow 925 Symons, J. Lawrence Berkeley National Laboratory STAR, 895 Syphers, M. Brookhaven National Laboratory 925, 880 Szanto de Taledo, A. Institute de Fisica da University de Sao Paulo STAR Szarska, M. Institute of Nucl. Phys.-Krakow 868 Szarwas, P. Warsaw University, Poland STA Szymanski, J. Indiana University Cyclotron Facility 788, 813

Tabocchini, A. University Federico II NSRL Taeger, S. A. University of Notre Dame 852 Tai, A. University of California at Los Angeles STAR, 941 Takagui, M. University of São Paulo PHENIX, 877 Takahashi, J. Wayne State University 896 Takahashi, J. Institute de Fisica da University de Sao Paulo STAR Takehashi, T. Tohoku University 930

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Takeutchi, F. Kyoto-Sangyo University 885, 813 Tallerico, T. Brookhaven National Laboratory 821 Tamagawa, T. University of Tokyo 929, 906, 905 Tamagawa, Y. Fukui University 949, 787 Tamai, Munetaka University of Tokyo PHENIX Tamura, H. INS-University of Tokyo 930, 929, 917, 906, 905 Tamura, H. Tohoku University 964 Tamura, K. Osaka University 929 Tanaka, Kazuhiro KEK PHENIX Tanaka, M. Brookhaven National Laboratory 850, 821 Tanaka, Yoshito Nagasaki Inst. of Applied Science PHENIX Tang, Aihong Kent State University STAR Tang, C. University of New York-Stony Brook pp2pp Tang, J. University of Texas 896 Tang, J.L. National Central University – Taiwan PHOBOS Tang, L. Hampton University 930, 929, 906 Tanida, K. University of Tokyo 930, 906 Tannenbaum, M. J. Brookhaven National Laboratory 866 Tarchini, A. Institute Subatomics de Strasbourg STAR Teige, S. Indiana University 852 Teng, L. Argonne National Laboratory 880 Teng, R. University of Rochester PHOBOS Tepikian, S. Brookhaven National Laboratory pp2pp, 880 Thein, D. University of California-LosAngeles STAR Themann, H. Rice University 896 Thern, R. E. Brookhaven National Laboratory 880 Thieberger, P. Brookhaven National Laboratory 951 Thiessen, A. Los Alamos National Laboratory 931, 907 Thomas, J. Lawrence Livermore National Laboratory STAR, 910, 866 Thomas, L. Southampton College NSRL Thomas, T. L. University of New Mexico PHENIX, 950, 926 Thompson, A. Dublin Inst. For Advanced Studies 893 Thompson, D. R. University of Notre Dame 852 Thompson, J.A. University of Pittsburgh 865 Thompson, M. University of Birmingham STAR Thompson, P. Brookhaven National Laboratory 821 Thompson, R. Bechtal Nevada 963, 939, 933 Throwe, T. G. Brookhaven National Laboratory 864 Tikhomirov, V. Moscow Engineering Physics Institute STAR Timmermans, C. University of Minnesota 962, 821 Tincknell, M. L. Purdue University 864 Tippens, W. B. Brookhaven National Laboratory 953, 931, 907 Tippens, W. B. University of California-Los Angeles 954, 927, 924, 914, 913, 909, 890 Togawa, Manabu Kyoto University PHENIX Tojo, J. Kyoto University 950 Tokarev, M. Laboratory of High Energy Physics – Dubna STAR Toldo, F. Brookhaven National Laboratory 821 Tominaka, T. RIKEN 880 Tonjes,M. Michigan State Univesity STAR Tonse, Shaheen Lawrence Livermore National Laboratory PHENIX Toropin, A. N. Institute for Nuclear Research 940 Torun, Y. State University of New York at Stony Brook 951, 910 Totzer, R. University of New Mexico 813 Towell, R. Los Alamos National Laboratory PHENIX

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Trainor, T.A. Univesity of Washington STAR Trattner, A. Space Sciences Laboratory STAR Trbojevic, D. Brookhaven National Laboratory 932 Trentalage, S. University of California-Los Angeles STAR, 925, 896 Tribble, R. Texas A&M University STAR Tricoma, A. University of Catania 896 Trofimov, A. Boston University 962, 821 Trofimov, V. Moscow Engineering Physics Institute STAR Tru, P. University Zurich 926 Trunk, J. Brookhaven National Laboratory NSRL Truoel, P. University of Zurich 865 Trzaska, M. State University of New York at Stony Brook 877 Trzupek, A. Institute of Nucl. Phys.-Krakow PHOBOS, 868 Tsai, C.-C. Oak Ridge National Laboratory 951 Tsai, O. University of California-LosAngeles STAR Tsalov, D. Pennsylvania State University 850 Tsang, T. Y. F. Brookhaven National Laboratory 951 Tschirhart, R.S. Fermi National Accelerator Laboratory 949 Tserruva, Itzhak Weizmann Inst. of Science PHENIX Tsoupas, N. Brookhaven National Laboratory 963, 925, 880, 820 Tsunemi, T. High Energy Accel. Research Organization (KEK) 949 Tsuruoka, Hiroshi University of Tsukuba PHENIX Tsvetkov, I. O. J.I.N.R., Dubna 850 Tull, C. Lawrence Berkeley Laboratory STAR Tunnel, T. Bechtel Nevada 963 Tupa, D. Los Alamos National Laboratory 963 Turcot, A. S. TRIUMF 787 Turner, M. Lawrence Berkeley National Laboratory NSRL Tveter, T. S. University of Oslo-Norway BRAHMS Tydesjo, Henrik Lund University PHENIX

Udumaki, Takeyoshi Hiroshima University PHENIX Ufimtsev, A. Institute for High Energy Physics-Serpukhov pp2pp, 880 Ukai, K. INS-University of Tokyo 787 Ullmann, J. Los Alamos National Laboratory 939 Ullrich, R. Colorado State University NSRL Underwood, D. Argonne National Laboratory STAR, 950, 925, 880 Urner, D. University of Illinois 962, 924, 821 Ushiroda, Tsukasa Nagasaki Inst. of Applied Science PHENIX

Vale, C.M. Massachusetts Inst. Technology PHOBOS

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van Asselt, W. Brookhaven National Laboratory 880 van Nieuwenhuizen, G. University of Illinois – Chicago PHOBOS VanBibber, K. A. Lawrence Livermore National Laboratory 933 Van Buren, G. University of California at Los Angeles 941, 864 VanGinneken, A. Fermi National Laboratory 951 VanderMolen, A. Michigan State Univesity STAR Vanderwerp, J. Indiana University 948 van Oers, W. University of Manitoba 906, 885, 813 Vardanyan, I. N. Moscow State University 852 Vartapetian, A. University of Texas-Arlington pp2pp Vasilevski, I.M. Particle Physics Laboratory – Dubna STAR Vasiliev, A. N. Institute for High Energy Physics-Protvino STAR, 925 Vasiliev, M. Texas A&M University STAR Vazquez, M. Brookhaven National Laboratory NSRL, 966, 960, 957, 947, 919, 898 Verdier, R. Massachusetts Inst. Technology PHOBOS Victorov, V. Inst. for High Energy Physics 949 Vidal, M. Max-Planck-Institute fuer Physik STARo Videbaek, F. Brookhaven National Laboratory BRAHMS, 866 Vigdor, S. E. Indiana University STAR, 948 Vinogradov, Aleksandr Kurchatov Institute, Russia PHENIX Viola, V. E. Indiana University 900 Viren, B. Brookhaven National Laboratory 949 Visser, G. Space Science Laboratory 896 Vixie, K. Los Alamos National Laboratory 963 Vlkolinski, R. Scripps Research Institute NSRL Vogelaar, B. Virgnia Polytechnic Institute 926 Volkov, Maxim Kurchatov Institute, Russia PHENIX Voloshin, S. University of Pittsburgh 877 Voloshin, Sergei Wayne State University STAR von Walter, P. University of Heidelberg 926, 821 Vongpaseuth, T. State University of New York at Stony Brook 877 Vu, C. Lawrence Berkeley Laboratory STAR Vznouzdaev, Evgueni Petersburg Nucl. Phys. Institute, Russia PHENIX

Wada, R. Texas A&M University BRAHMS Waddington, C. J. University of Minnesota 934, 869, 868 Wadsworth, B. Massachusetts Inst. Technology PHOBOS Wakasa, T. University of Tokyo 925 Waldren C. Colorado State University 960, 957, 919, 898 Wales, W. D. University of Pennsylvania 940 Walsh, M. Creighton University STAR Walstrom, P. Los Alamos National Laboratory 963 Wan, X. University of Pennsylvania NSRL Wang, Enke Inst. Particle Physics – China STAR Wang, F. Columbia University 866 Wang, F. Purdue University STAR Wang, H. Brookhaven National Laboratory 951 Wang, H. University of California-Riverside 917 Wang, H. Thomas Jeffeson University NSRL

171

Wang, Hui Georgia State University PHENIX Wang, Qin Inst. Particle Physics – China STAR Wang, Qin Georgia State University PHENIX Wang, S. Kent State University 895 Wang, Xiaorong Georgia State University PHENIX Wang, Y. Columbia University 866 Wang, Y. University of Texas – Austin STAR Wang, Y. Thomas Jefferson Univesity NSRL Warburton, D. Brookhaven National Laboratory 962, 821 Watanabe, N. Japan Atomic Energy Reserach Institute 938 Ward, H. University of Texas-Austin STAR, 931, 907 Ward, T. Brookhaven National Laboratory 820 Ward, T. U. S. Department of Energy 939 Ware, C. B. University of Texas-Austin 871 Ware, J. University of Pennsylvania NSRL Warner, T. Boston University 811 Watanabe, N. Japan Atomic Energy Research Institute 838 Waters, L. Los Alamos National Laboratory 939 Watson, J. W. Kent State University STAR, 948 Wefel, J. P. Louisiana State University 868 Weggel, R. Brookhaven National Laboratory 951 Weil, M. Colorado State University NSRL Weinstein, R. University of Houston 904 Weise, R. Tel-Aviv University 835 Wells, R. Ohio State University STAR, 895 Welsh, R. University of Michigan 896 Welsh, R. College of William and Mary 935, 924, 871 Wessels, J. State University of New York at Stony Brook 877 Westfall, G. Michigan State Univesity STAR Westphal, A. University of California-Berkeley 915 Weyer, H. Paul Scherrer Institute 865 Weygand, D. P. Brookhaven National Laboratory 852 Whiteson, A. Bechtel Nevada 963 Wieder, M. Freiburg University 813 Wiedner, U. University Uppsala 958 Wieman, H. Lawrence Berkeley Laboratory STAR White, D. Rensselaer Polytechnic Institute 852 White, D. B. University of California-Los Angeles 914, 913, 909, 890 Whitfield, J. Carnegie-Mellon University 895 Whitehouse, D. Boston University 811 Whitten, C. University of California-Los Angeles STAR, 925 Whohn, F. Iowa State University 941 Widenbeck, M. E. Caltech 934 Wider, M. Freiburg University 811 Wienands, U. TRIUMF 880 Wienold, T. Lawrence Berkeley National Laboratory 895 Wilczynska, B. Institute of Nucl. Phys.-Krakow 868 Wilczynski, H. Institute of Nucl. Phys.-Krakow 868 Wilke, M.D. Los Alamos National Laboratory 963 Wilkins, R. Prairie View A&M University 957 Williams, N. Brookhaven National Laboratory 880 Willson, R. Ohio State University STAR Willutzki, H. J. Brookhaven National Laboratory 852 Wilson, J. University of Houston 940

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Wilson, K. Wayne State University 896 Wilson, P. Colorado State University NSRL Winn, D. Fairfield University 962, 821 Winter, D. Columbia University 910 Wise, J. Northwestern University 852 Wissink, S. W. Indiana University STAR, 948 Witkowski, M. Rensselaer Polytechnic Institute 935, 852 Witt, R. Kent State University STAR, 895 Witzig, C. Brookhaven National Laboratory 949, 787 Wohn, F. K. Iowa State University 864 Wojcicki, S. G. Stanford University 871 Wolfe, D. University of New Mexico 950 Wolfe, M. University of New Mexico 906, 865, 813, 811 Wolfs, F. University of Rochester PHOBOS, 917 Wolin, E. College of William and Mary 871 Wolter, W. Institute of Nucl. Phys.-Krakow 868 Woodruff, D. Massachusetts Institute of Technology PHOBOS, 866 Woody, C. Brookhaven National Laboratory 926, 871 Worm, S. University of Texas-Austin 871 Worstell, W. Boston University 821 Wosiek, B. Institute of Nucl. Phys.-Krakow PHOBOS, 868 Wozniak, K. Institute of Nucl. Phys.-Krakow PHOBOS, 868 Wright, D. M. Lawrence Livermore National Laboratory 933 Wu, H. Johnson Space Center NSRL Wu, J. University of Washington STAR Wu, J. Y. Pennsylvania State University 850 Wu, Y. Columbia University 866 Wu, Yuanfang Inst. Particle Physics – China STAR Wuosmaa, A. Argonne National Laboratory PHOBOS, 917 Wyslouch, B. Massachusetts Inst. Technology PHOBOS

Xiang, H. University of California-Riverside 917, 866 Xie, Wei University of California – Riverside PHENIX Xiong, H. Wayne State University 877 Xu, G. University of California-Riverside 917 Xu, N. Lawrence Berkeley Laboratory STAR Xu, Q. University of California -Riverside 866 Xu, Z. Yale University 941

Yagi, K. University of Tsukuba 866 Yakutin, A. Institute High Energy Physics-Protvino STAR

173

Yamamoto, A. National Laboratory for High Energy Physics (KEK) 962, 821 Yamamoto, E. Lawrence Berkeley Laboratory STAR Yamamoto, E. University of California at Los Angeles 941 Yamamoto, K. Kyoto University 950, 906, 885 Yan, B. Duke University NSRL Yang, H. Massachusetts General Hospital NSRL Yang, X. Columbia University 910, 866 Yang, T. C-H. NASA Johnson Space Center 919, 898 Yang, Yi China Inst. of Atomic Energy PHENIX Yanovich, Andrey Inst. for High Energy Pysics, Russia PHENIX Yao, H. Massachusetts Institute of Technology 917, 866 Yasuno, T. High Energy Accel. Research Organ. (KEK) 949 Yates, G. J. Los Alamos National Laboratory 933 Yavin, A. I. Tel-Aviv University 835 Yennello, S. J. Texas A&M University 900 Yepes, P. Rice University STAR, 896 Yershov, A. A. Moscow State University 852 Yershov, N.V. Inst. for Nuclear Research 949 Yin, Z. Fysisk Institute BRAHMS Yoder N. R. Indiana University 900 Yokkaichi, S. University of Kyoto 813 Yokkaichik Satoshi RIKEN PHENIX Yokosawa, A. Argonne National Laboratory STAR, 925, 880 Yokoya, K. KEK 880 Yoshi, M. KEK, National Laboratory for High Energy Physics 932 Yoshimura, Y. KEK, National Laboratory for High Energy Physics 949, 787 Yoshioka, T. High Energy Accel. Research Organization (KEK) 949 Yosoi, M. Kyoto University 906, 885 Youn, M. University of Houston 940, 929 Yu, B. Brookhaven National Laboratory NSRL Yu, Meiling Inst. Particle Physics – China STAR Yuan, L. Hampton University 906 Yurevich, V. Laboratory of High Energy Physics – Dubna STAR Yushmanov, Igor Kurchatov Institute, Russia PHENIX

Zaharia, R. University of Bucharest-Romania BRAHMS Zajc, W. A. Columbia University 910, 866 Zalewski, K. Jagellonian University, Poland PHOBOS Zberecki, K. Warsaw University, Poland STAR Zborovsky, I. Laboratory of High Energy Physics – Dubna STAR Zeitlin, C. Lawrence Berkeley National Laboratory NSRL Zeller, A. Fermi National Laboratory 951 Zeller, M. Yale University 926, 865 Zenevsky, Y. Laboratory of High Energy Physics – Dubna STAR Zeps, V. University of Kentucky 931, 907, 885 Zeps, V. Carnegie-Mellon University 813 Zgura, I.S. University of Bucharest-Romania BRAHMS Zhang, B. Institute High Energy Physics – Beijing STAR

174

Zhang, Chun Columbia University PHENIX Zhang, Haibin Yale University STAR Zhang, W. M. Kent State University STAR, 948 Zhang, W. N. Harbin University 895 Zhang, Y. State University of New York at Stony Brook 877 Zhang, Y. Columbia University 910, 877 Zhang, Zhou State University of New York at Stony Brook PHENIX Zhao, D. Northwestern University 852 Zhao, K. City College of New York 891 Zhao, Y. Brookhaven National Laboratory 951 Zhao, Y. Columbia University NSRL Zhidkov, N. Particle Physics Laboratory – Dubna STAR Zhou, G. Brookhaven National Laboratory NSRL Zhou, Suijian Weizmann Inst. of Science PHENIX Zhou, Z. University of Pennsylvania NSRL Zhu, F. Brookhaven National Laboratory 866 Zhu, Q. University of California-Riverside 866 Zhu, Y. City College of New York 891 Zieminska, D. Indiana University 852 Ziliak, Z. Indiana University 852 Zimmerman, D. University of Minnesota 821 Ziock, H. Los Alamos National Laboratory 933, 920 Zou, C. State University of New York at Stony Brook 877 Zou, C. University of California-Riverside 917 Zoulkarneev, R. Particle Physics Laboratory – Dubna STAR Zubarev, A. Laboratory of High Energy Physics – Dubna STAR Zumbro, J. Los Alamos National Laboratory 963, 933, 920 zu Putlitz, G. University of Heidelberg 962, 952, 821 Zybert, R. University of Birmingham 813 Zychowski, P. Institute Nucl. Phys., Poland PHOBOS

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