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5 FEB 2008 Piotr MALECKI 1
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
5 FEB 2008 Piotr Malecki 2
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
5 FEB 2008 Piotr Malecki 3
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
5 FEB 2008 Piotr Malecki 4
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
5 FEB 2008 Piotr Malecki 5
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
5 FEB 2008 Piotr Malecki 6
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
5 FEB 2008 Piotr Malecki 7
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
5 FEB 2008 Piotr Malecki 8
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
5 FEB 2008 Piotr Malecki 9
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
5 FEB 2008 Piotr Malecki 10
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
5 FEB 2008 Piotr Malecki 11
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR ORGANISATIONAL STRUCTURE REFLECTS – BESIDES SOME SMALL OVERLAPS – THE ASSOCIATIONS WITH RESEARCH PROJECTS
DEPARTMENT HEAD
NZ11 – OF LEPTONIC INTERACTIONS Assoc. Prof. GRAŻYNA NOWAKNZ12 – OF HADRON STRUCTURE Prof. Jan FIGIELNZ13 – OF LINEAR COLLIDER Assoc. Prof. Leszek ZAWIEJSKINZ14 – OF ATLAS EXPERIMENT Prof. Barbara WOSIEKNZ 15 – OF COSMIC RAY RESEARCH Prof. Henryk WILCZYŃSKINZ 16 – OF NEUTRINO & DARK MATTER STUDIESProf. Agnieszka ZALEWSKA
NOTICE CONSIDERABLE CHANGES SINCE THE LAST REVIEWSOME FURTHER CHANGES ARE CONSIDERED
(THE EVOLUTION OF THE ORGANISATION IS NOT A GOAL IN ITSELF)THE MOST IMPORTANT IS THE INTEGRATION OF THE DIVISION.
IN DOMAINS OF COMPUTING, EDUCATION, ORGANISATION OF CONFERENCES, SEMINARS AND OUTREACH EVENTS
WE PROFIT FROM THE EFFECTIVE INTEGRATION OF OUR DIVISION.
5 FEB 2008 Piotr Malecki 12
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
STAFF OF THE DIVISION:
PROFESORS: 10 (FTE 9 ¼)ASSOC. PROFESORS 7POST DOCS 20
ENGINEERS 13 (FTE 12 ½)TECHNICIANS 3ADMINISTRATION 2
-------------------------------------------------------------TOTAL 55 (FTE 53 ¾)
PhD STUDENTS : 15
ON LEAVE OF ABSENCE: 3 POST DOCS AND 1 ENGINEER
5 FEB 2008 Piotr Malecki 13
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
NOW, I AM GOING TO GUIDE YOU
AROUND
A VERY RICH AND HETEROGENOUS MATERIAL
DESCRIBING
OUR ACTIVITES AT ALL MENTIONED PROJECTS
(((()))))
I WILL SLOW DOWN ONLY AT SELECTED POINTS
5 FEB 2008 Piotr Malecki 14
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
LET’S GO
NZ15 – Department of Cosmic Ray Research
Participation in the Pierre Auger Project: study of ultra-high energy cosmic rays
People1 prof., 4+1 PhD, 1 PhD student, 4 diploma students
Grants:MNSW 2006-2009: 199.6 kPLN 2007-2010: 463.9 kPLN 2006-2007: 17.3 kPLN 2008-2010: 89.3 kPLNPolish Network for Astroparticle Physics (shared with NZ16): 2007-2008: 200 kPLN; 2008-2009: 194 kPLN
Publications 2007-2008: 10 journal papers
The Pierre Auger Project
Study of highest energy cosmic raysusing two large air shower detector systems
Auger-South
Mendoza, Argentina
(construction completed)
Auger-North
Colorado, USA
(in planning)
Detection of extensive air showers in Auger
The Collaboration: >400 scientists, 67 institutions, 17 countries
Surface detector array + air fluorescence detectorsAuger-South: 3000 km2
Fluorescence eye
Particle detector array
Auger timeline
July 1991 the idea of Giant Array ProjectMar 1999 groundbreakingNov 2007 first major resultsJun 2008 southern observatory completeNov 2008 official inauguration
Science results
Cosmic ray anisotropy at E > 57 EeVScience 318 (2007) 939
Correlation with active galactic nuclei - are AGNs the UHECR sources? or just tracers of the sources?
Energy spectrumPhys. Rev. Lett. 101 (2008) 061101
Observation of the Greisen-Zatsepin-Kuzmin effect (spectrum suppression due to CR interactions with the microwave background radiation)
E > 1020 eV
35 1 expected1 observed 6 effect
Supergal. plane Cen A
E>57 EeV AGN
Science resultsLimit on ultra-high energy photon flux Astropart. Phys. 29 (2008) 243
Limit on tau neutrino fluxPhys. Rev. Lett. 100 (2008) 211101
What can we say about UHE cosmic ray sources? they are extragalactic likely „astrophysical” rather than „exotic” AGNs are interesting objects
restriction on exotic models of cosmic ray origin
Outlook
Southern Pierre Auger Observatory completed,Plans for Auger-North in Colorado (7x Auger-South) + extensions of Auger-South
First results published – and this is just the beginning!The Auger scientific program planned for >15 years
IFJ PAN participationAnalysis of optical image of an air shower influence of atmospheric variability on shower measurements atmospheric multiple scattering of light from air showers improvements of data accuracyUHE photon and neutrino identification among cosmic raysData acquisition and analysisParticipation in construction of both Auger-South and Auger-North
5 FEB 2008 Piotr Malecki 22
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
Belle ExperimentPrecision tests of the Standard Model and New Physics
searches at the high-luminosity frontier
Precision tests of the Standard Model and New Physics searches at the high-luminosity frontier
e+e- (4S) BB
Lpeak= 1.71034/cm2/s
>1 milionBB-pairs/day
Lint = 895 fb-1 (as of Dec. 25, 2008)
Krakow’s Belle group
• 4 PhD physicists
• 3 electronics eng.
• 2 PhD students
• 1 diploma student
Financing
1) approved as a Polish-Japanese joint research project under the Agreement on Scientific Cooperation between the Polish Academy of Sciences and the Japan Society for the Promotion of Science (JSPS).
2) MNiSW grant: 364 700 PLN until 30.09.2010
3) living costs at KEK financed by KEK
Belle hot topics Belle hot topics http://belle.kek.jp - 2008/2009 - 2008/2009
2007-20082007-2008 9933 journal papers journal papers
with physics resultswith physics results
47 in Phys.Rev.Lett. 47 in Phys.Rev.Lett. 1 in 1 in NatureNature
2007-20082007-2008 9933 journal papers journal papers
with physics resultswith physics results
47 in Phys.Rev.Lett. 47 in Phys.Rev.Lett. 1 in 1 in NatureNature
BaBar and Belle mentioned by name in the Nobel press release.
Physics analysis B decays with missing energy:
b c B D(*)+
rare B decays: b d B
B decays withsc states: Ds
(*) production in B-Ds(*)-K-,
new particle searches in the D(*)K system produced in B D(*)D(*)K.
Activities at IFJ PANActivities at IFJ PAN Detector development adopting the SVD readout chain to
the modularized pipeline readout electronics system
R&D studies for low noise silicon strips readout chip in the SOI (Silicon On Insulator) technology
Outcome in 2007-2008
1 PhD thesis
1 Master thesis
12 presentations at international HEP conferences and workshops
Coauthors of 93 Belle papers with physics results 2 SVD related papers
12 presentations at international HEP conferences and workshops
Coauthors of 93 Belle papers with physics results 2 SVD related papers
Other tasks production of generic Monte Carlo
samples refering of Belle publications expert & non-expert shifts SVD maintenance & operation coordination of the Belle charm
groupmore details tomorrowmore details tomorrow
Future plansFuture plans
ab-1
Future plansFuture plans
5 FEB 2008 Piotr Malecki 29
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
THE ATLAS EXPERIMENT DEPARTMENT
PHOBOS – S14205--- Prof. Barbara WOSIEK
PEOPLE:
STAFF: 2 PROF, 1 ASSOC. PROF., 2 DR ( ~ 2 FTE)
PhD STUDENTS: 1
FUNDING:
GrantS: (2007 - 08) 138 kPLN
PHOBOS Experiment at the BNL-RHIC International Collaboration:
USA, Poland (IFJ PAN) and Taiwan
PRIMARY AIM: Search for manifestations of new physics phenomena expected
to occur in heavy ion collisions at the highest accelerator energies.
OVERVIEW2000 – 2005 data-taking2004 – co-discovery of a near-perfect fluid2005 – data-taking has come to a close2005 – 2010 data analyses
Au
100 GeV/n
Au
100 GeV/n
RESULTS (2007 – 2008)18 publications (Philadelphia ISI Master List) 5 presentations at international conference 1 M.Sc. diploma
at IFJ PAN (2007-2008)TASKS:
Monte Carlo production Analysis of particle production at very low transverse momenta
Study of fluctuations and correlations in multi-particle final statesSELECTED PHYSICS RESULTS:
No anomalous enhancement;strong radial flow effects
J. Phys. G35 (2008) 104131
Cu+CuAu+Au 200 GeV
FINAL-STATE MOMENTUMANISOTROPY
TWO-PARTICLEANGULAR CORRELATIONS
Unification of the ellipticflow results when scaled
by the participant eccentricityPhys. Rev. Lett. 98 (2007) 242302
UNIQUE PHOBOS MEASUREMENTS OF PARTICLE PRODUCTION
AT VERY LOW pT
At freeze-out particles tend to be
produced in clusters J. Phys. G35 (2008) 104142
5 FEB 2008 Piotr Malecki 33
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
Heavy-Ion Physics with the ATLAS Detector IFJ PAN GROUP: 4 physicists (FTE 2), 1 Ph.D. studentCoordinator: Prof. Barbara Wosiek (ATLAS HI WG convener)
TASKS: Monte Carlo production
Development of the software analysis tools Global characteristics of heavy-ion collisions
Performance studies for measuring final-state momentum anisotropies
Pb+Pb, b = 2.3 fm Pb+Pb, b=10.7fm
truth
Charged-particle densitywell reconstructed usingclusters from the ATLASPixel detector (points)
Azimuthal anisotropieswell reproduced (stars and squares)
input
RESULTS (2007 – 2008)6 publications, 5 presentations at international conference 1 Ph.D. thesis
5 FEB 2008 Piotr Malecki 35
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
The ATLAS Experiment Department NZ14
STAFF (as of 2008):
PROFESSORS 5 ( 4.1 FTE) ASSOC. PROF. 2 ( 1.75 FTE) DR 10 (10 FTE) ENGINEERS 4 ( 3.5 FTE) TECHNICIANS - - 21 (19.35 FTE)
PhD STUDENTS 7
MNiSW fund for 2009 466 kPLN
pp Physics with ATLAS detectorPrimary interest: physics with tau leptons in final state signature offers rich physics program for New Physics SM Higgs,
MSSM Higgs, SUSY (more in presentation by A. Kaczmarska tomorrow)
important for ‘rediscovering SM” with 10 -100pb-1
strong link with expertise of IFJ-PAN TH group (Tauola MC)
People (IFJ PAN GROUP, 2007-2008): Coordinator: Prof. E. Richter-Was ( also ATLAS TAU WG convener )4 physicists (FTE 3.75), 2 Ph.D. students,1 PhD thesis, 5 master thesis (4 in physics, 1 in computing). Results:Section editors in 2 ATLAS Publications, authors of 9 internal notes, contributions to 8 CSC ATLAS public notes (to appear in February))2 talks at int. conf., 8 talks at int. workshops,Scientific organisation of „ATLAS Physics with TAU workshops” (Cracow07,
Dresden08)Extra fundings: PhD thesis grant 2006-2007 (100k PLN)EU Marie Curie reintegration grant 2006-2007 ( 40k EU)Polish Goverment grant 2007-2008 (150k PLN) (supplement to EU MC grant)Polish Goverment grant 2008-2010 (300k PLN)
pp Physics with ATLAS detectorTasks:
leading group in development of the off-line tau reconstruction:
responsibilities for core off-line software, new algorithm designed and accepted for central data processing, optimisation of the identification,coordination of package for the identification with multi-
variatemethods, preparation for signature commissioning with first
data.
Expected performance for tau efficiency and QCD jets rejection
ATLAS Collab, JINST 3, S08003, 2008
π0
π+
π-
π+
τ jet
pp Physics with ATLAS detectorTasks: Physics analyses for reestablishing Standard Model with tau
lepton signatures W, Z , tt b lb (cross-section measurements),
involvement in optimisation of tau+ETMiss dedicated trigger. Also important contribution to MSSM bbH, Htt
First events with tau leptons. Expected observability of W with 100pb-1,
ATLAS Collab, CERN-OPEN-2008-020lep/lep
lep/had
combined
Expected improvement 8%-10%, and more
robust bbH, H->observabilitywith combined lep-lep + lep-had IFJ-PAN PhD thesis 2007
MSSM bbH
ATLAS
TASK:Development of the formalism, implementation and validation of the offline tracking alignment algorithm based on the Least Squares multidimensional (NDoF≈35,000) fit.
YIELD 2007-2008:o Solution to the full scale alignment problem using the CSC simulated data,o Operational readiness during the two consecutive FDR exercises,o Analysis of the 2008 cavern cosmic data and the first alignment of the real detector in-situ.3 publications of the results,2 published conference proceedings and third submitted to NIM-A,2 internal collaboration notes and next two in preparation.
TITLE: Track-based alignment of the Inner Detector of ATLAS, P.Brückman de Renstrom
18 m misalignment
Example results from the cavern cosmic alignment (Dec 08):
R residual distribution before and after alignment compared to the perfect MC in the SCT detector.
Impact parameter resolution reconstructed from the two halves of the cosmic track, before and after alignment.
5 FEB 2008 Piotr Malecki 40
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
CONTRIBUTIONS OF KRAKÓW ATLAS GROUP TO THE DETECTOR CONSTRUCTION
CONCENTRATED ON THE INNER DETECTORIN PARTICULAR:
SCT (SemiConductorTracker) TRT (Transition Radiation Tracker) •Design of the ABCD3T readout chip - Design and implement the TRT DCS•Design, prototype and tests of HV PS- Design, build and test GGSS•Design of the crate’s backplane - Design of the LV & HV PS•Design of the crate controler - Integrate TRT DCS into global DCS•Programming HV PS fimware -•Programming SCT DCS -
Most of that work is carried out in close cooperation with the FP&IT AGH
2007 – 2008 TRT and SCT integration tests and comissioning
Persistent responsibility for the constructed devices
SCT PVSS EXAMPLE OF A POWER SUPPLY SYSTEM CONTROL PANEL
SCT PVSS EXAMPLE OF A POWER SUPPLY SYSTEM CONTROL PANEL
IFJ PAN in ATLAS TRT detector
• Design, construction and commissioning of the TRT DCS (full responsibility)
• Design and deployment of s/w for HV and LV systems
• Active participation in running of the detector (cosmic runs, FIRST DAY’s running) and central ATLAS DCS
• Responsibility and coordination of installation, cabling and deployment of TRT LV system– Commisioning, tests and burn-in of h/w for LV power supplies for r-o
electronics
• Thermal analysis of the detector setup in running conditions – Important for gaseous gain stabilization which determines detector performance
• Managing contributions– Membership in TRT Project Office (and institute board)
– Convener of TRT DCS and monitoring working group
LHC
TRT services software
LCS1
TRT
INFRASTRUCTUREBARREL A BARRELC
ENDCAP A ENDCAP C
COOLING
DAQ VME
RACKS
LV BULK
CANPSUHV
HV HV
FE_LV
TEMP
FE_LV
TEMP
FE_LV
TEMP
FE_LV
TEMP
HV PartA HV PartC
HVC
PPxx
HVB
HWI HVA
CIC
SCS
GAS SYS
ALARMS GG SS
LINUX
Barrel Ventilation
CO2 cooling
TRT services hardware
Some resultsDynamics of heat propagation Cosmics tracks
February 2009 IFJ PAN biannual review 47
Forward physics in Cracow ATLAS
• ALFA project (Absolute Luminosity For ATLAS) - Already approved ATLAS subsystem ( we enter the game rather late)
– Major contribution to design of the FE read-out electronics– Contribution to test beam runs (read-out software)– Purchase of LV power supplies (installation and control s/w included)
• AFP 240 + 420 projects - Full involvement in projects
– Power supplies (harsh radiation environment)– Detector Control System (monitoring and control)– Potential contribution to read-out system (expertise exists)
• Physics analysis– Reconstruction of diffractive kinematics from proton position in detectors– Simulation of trigger efficiency for single diffraction in ALFA
5 FEB 2008 Piotr Malecki 48
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
11.04.23 G. Polok NZ XI
LHCb experiment at LHC
• Kraków group joined LHCb in 1998– Main activities in Outer Tracker group
and in software development
– MoU and MoU M&O signed in October 2004
Outer TrackerMain contribution of the IFJ PAN
IFJ PAN funds - …… PLNGrant MNiI (2005–2007) - 200 000 PLN (together with AGH) PBS MNiSzW (2006–2007) - 780 000 PLNPBS MNiSzW (2008–2009) - 220 000 PLN
IFJ PAN funds - …… PLNGrant MNiI (2005–2007) - 200 000 PLN (together with AGH) PBS MNiSzW (2006–2007) - 780 000 PLNPBS MNiSzW (2008–2009) - 220 000 PLN
Precise measurements of CP violation and rare decays in B-meson sector
Outer Tracker
11.04.23 G. Polok NZ XI
Outer Tracker - historyProduction technology developed in Kraków during preparation of two prototypes was a big
achievement of the Kraków team, verified during tests at the PS at CERN . More than 80% of the technology was applied in the mass production
1000m2 of panels produced in 2004 were used in 2005-2006 for production of Outer Tracker
modules
prototype
2007-2008 – construction of OT in the pit, tests and integration with DAQ
11.04.23 G. Polok NZ XI
LHCb detector is ready
Spokeperson LHCb 23.09.2008
Cosmics
Beam injection tests
Beam injection tests
11.04.23 G. Polok NZ XI
Staff: 4PhD students:2
Main activities and achievements:
participation in the development of LHCb software and preparation for data taking and analysis: - development of off-line algorithms for primary vertex reconstruction and short track reconstruction, - redesign of trigger algorithms (readout at 1 MHz ) - electromagnetic lines for High Level Trigger, inclusive HLT trigger for radiative B decays - simulation of selected physics processes, - preparation for physics analysis (off-line selections, HLT selections, sensitivity studies, CP fits) - participation in setting up the local Tier-2 and Tier-3 centre for LHCb applications, - 2 Diploma thesis - participation in Outer Tracker integration
IFJ PAN is one of the institutesresponsible for physics trigger algorithms
Kraków LHCb members and activities in 2007- 2008
11.04.23 G. Polok NZ XI
Software development and physics analysisexamples
•
Fast discrimination between γ/π0 used in photon line of electromagnetic HLT alley.
Improved primary vertex reconstruction reducing bias coming from B decay products.
The expected proper time distribution for Bs→Dsπ
oscillation measurement after 1 year of data taking
The sensitivity study for γ angle measurement for B→D*a1. The top picture shows distribution of angle γ, the bottom picture shows distribution of uncertainties as given by fit procedure.
11.04.23 G. Polok NZ XI
Kraków LHCb members in 2007 - 2008
• 2007-2008 – M. Kucharczyk 100%
– T. Lesiak 30%
– G. Polok 90%
– M. Witek 100%
– K. Senderowska 100% PhD student
– D. Rozpędzik 50% PhD student (UJ)
• Main contributors 1998-2006– Staff: E. Banaś, J. Błocki, L. Hajduk, P. Jałocha, P. Kapusta, B. Kisielewski, T. Lesiak, J. Michałowski,
Z. Natkaniec, W. Ostrowicz, G. Polok, M. Stodulski, M. Witek, P. Żychowski
– Additional persons: B. Dąbrowski, M .Despet, A. Florek, B. Florek, K. Gałuszka , J. Garwoliński, A. Strączek, M. Stręk
5 FEB 2008 Piotr Malecki 55
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
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Research staff: Dr Krzysztof Cieślik Dr Anna Dąbrowska Dr Monika Szarska Prof. Agnieszka Zalewska
PhD students: Mgr Andrzej Szelc Mgr Dorota Stefan Mgr Tomasz Wąchała Mgr inż. Paweł Karbowniczek
Diploma students (2007-2009) Grzegorz Dzioba, Wojciech Jasielski, Paweł Karbowniczek, Tomasz Świątek Małgorzata Stępień
Department of Neutrino
and Dark Matter Studies
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Research activities
The ICARUS experiment at Gran Sasso (since 2000, cooperation with DAI on hardware contributions)
The WARP experiment at Gran Sasso (since 2005)
The T2K experiment at JPARC (participation since October 2006, cooperation with DAI on hardware contributions)
LAGUNA project (INFRASTRUCTURES-2007-1) (preparations since 2004, aplication to EC in May 2007, project’s duration 1.07.2008 – 30.06.2010)
Realized in close collaboaration with physicists from Katowice, Warsaw and Wroclaw forming the Polish Neutrino Group – the list of projects in a chronological order
Physics goals Measurement of the neutrino mixing angle 13 with a sensitivity 0.01 using the accelerator neutrino beam from Tokai to Kamiokande and very precise measurements of the two other oscillation parameters 23 and Δm2
23
Status All works according to the schedule: first beam accelaration up to 30 GeV in the main synchrotron achieved before Christmas 2008, neutrino beam foreseen in April 2009, construction of the near detector ND280 will have been done by October 2009, start of data taking with both near and far detectors by the end of 2009.
Polish groups are co-responsible (with LSU, INR-Moscow and Kobe U.) for the SMRD (Side Muon Range Detector) sub-detector of ND280
Financing: Special Research Programme (with other five Polish research institutions) for a period 1.07.2007 – 30.06.2010
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The T2K experiment at JPARC
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The T2K experiment at JPARC
Contributions of IFJ PAN in 2007-2008Hardware (thanks to our colleagues from DAI)
Thermal calculations for the SMRD detector
Design and construction of the SMRD modules mounting and fixing systems – 670 kg of systems’ elements sent to JPARC two weeks ago.
Responsibility for establishing the SMRD module mounting and installation procedures (two engineers from DAI are currently at JPARC)
Software, analysis
T.Wąchała is one of two authors of the SMRD reconstruction program
Our group has recently joined the νμ CC analysis group with a goal
to study the π0 background to the QECC channel.
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The T2K experiment at JPARC
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The T2K experiment at JPARC
Publications, presentations
First publication concerning the SMRD detector in 2009, more than 20 presentations from IFJ PAN at the T2K collaboration meetings and at the SMRD teleconferences in 2007-2008
Plans for 2009-2010
Further participation in the SMRD detector installation, shifts during the data taking and participation in the data analysis
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The T2K experiment at JPARC
Publications, presentations
First publication concerning the SMRD detector in 2009, more than 20 presentations from IFJ PAN at the T2K collaboration meetings and at the SMRD teleconferences in 2007-2008
Plans for 2009-2010
Further participation in the SMRD detector installation, shifts during the data taking and participation in the data analysis
Physics goals
Studies of the neutrino interactions from the CNGS beam, atmosphere and astrophysical sources, searches for proton decay (but detector is too small to improve current low limits of the proton lifetime)
Special motivation: very interesting detector technique applied for the first time on a larger scale in the underground laboratory (R&D programmes for large LAr detectors in Europe,USA and Japan)
Status of the experiment
Detector commissioning in the Gran Sasso laboratory (electronics installed and tested, reliquefying system almost ready, vacuum tests under way)
Start of the data taking postponed several times – now filling the detector with liquid argon is foreseen in April 2009
Financing: SPUB (with other three Polish research institutions) for a period 2003-2005, prolongated till the end of 2009
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The ICARUS experiment at Gran Sasso
IFJ PAN contributions in 2007-2008 Participation in the electronics modifications (thanks to technicians from NZ11), installation and tests – 5.5 man-months
Significant contribution to the mesons analysis based on test data (A.Dabrowska, M.Szarska) – the collaboration paper sent for publication in EPJ C
Work on the 3D reconstruction of electromagnetic cascades, on the ICARUS graphics and on the analysis tools for the /e discrimination and for the search of proton decay p K (T.Wachala, D.Stefan, P.Karbowniczek)
Publications, internal notes 2007-2008 2 collaboration papers: one published, one sent for publication , 2 internal notes plus one in preparation with a participation of physicists from IFJ PAN
Plans for 2009-2010 Participation in data taking and data analyses
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The ICARUS experiment at Gran Sasso
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The ICARUS experiment at Gran Sasso
Dorota Stefan presenting her poster on proton decay in liquid argon at the CERN
school in 2007Graphics tool for identification (Pawel
Karbowniczek)
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The LAGUNA project
Proposal title (max 200 characters) Design of a pan-European Infrastructure for Large Apparatus studying Grand Unification and Neutrino Astrophysics
Proposal acronym LAGUNA
Type of funding scheme RI design study implemented as Collaborative Project
Work programme topics addressed Deep underground science, particle physics, astroparticle physics
Name of the coordinating person Prof. André Rubbia
Design Study
FP7-INFRASTRUCTURES-2007-1
Application 2.05.07, kick-off meeting 1.07.2008, 2 years
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The LAGUNA project
Goals
Searches for proton decay, studies of low energy neutrinos from astrophysical sources and studies of neutrino properties with accelerator beams using the detectors on the 100000 – 1000000 tons scale in one of the following technologies: water Cherenkov, liquid scintillator and liquid argon – J.Aysto et al.., J. Cosmol. Astropart. Phys. 11 (2007) 011;
No one of the existing underground laboratories is able to host such a detector the LAGUNA project is dedicated to the feasibility studies of possible localizations in Europe of the future underground laboratory
LAGUNA collaboration: ~100 researchers, 16 scientific institutions, 5 industrial partners, 10 countries
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Participating institutions: KGHM Cuprum (industrial partner), IGSMiE (specialists in underground storage, especially in salt caverns), IFJ PAN (scientific partner, representing other five Polish scientific institutions)
Polish partners are responsible for the feasibility study for SUNLAB (Sieroszowice UNderground LABoratory) within WP2, in addition IFJ PAN is responsible for WP4 (Science Impact and Outreach), A.Zalewska from IFJ PAN – coordinator of the work performed in Poland.
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Polish part of LAGUNA
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The WARP experiment at Gran Sasso
Physics goal
Search for WIMPs with double phase Argon detectors
Status
Data taking with a 2.3 l prototype detector since 2004
Commissioning of the main 100 l detector, start of running very soon
Cracow contributions (A.Szelc)
Development of the analysis software for both detectors and significant contribution to the data analysis from 2.3l detector
Financing: MNiSW grant
71
Publications in 2007-2008
3 collaboration papers (one on the WIMP search results with 2.3l detector, two on the LAr contamination with nitrogen and oxigen
1 conference presentation by A.Szelc and three WArP internel reports with A.Szelc as a co-author
Plans for 2009-2010
Analysis of the data taken with the 100 l detector
The WARP experiment at Gran Sasso
Published exclusion curve for the WArP 2.3l detector
5 FEB 2008 Piotr Malecki 72
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
NZ13
DEPT. LINEAR COLLIDER (since 01.01.2008, in 2007 part of NZ12)
ILC – S13109 (formerly S12109) --- assoc. prof. Leszek Zawiejski
PEOPLE: STAFF: 1 prof., 1 assoc. prof., 1 dr, 6 engineers, 1 student (5 FE)FUNDING: The Polish Ministry of Science and Higher Education (2007-2008) 288 kPLN EU PROJ. EUDET (2007-2008) 160 kPLN
R&D for ILC – Luminosity Detector LumiCal(FCAL Collaboration, EUDET Project),
LLRF system (XFEL)
R&D activities in agreement with ILD detector concept:
● Monte Carlo studies
● Mechanical design and silicon sensors
● Laser position monitoring system
● Work with XFEL Project has started: Design of LLRF System and its installation in the tunnel (WP02)
Close collaboration with :UST AGH (Cracow), Zeuthen (DESY), Hamburg (DESY), Tel Aviv University, LLR-Ecole Polytechnique (Palaiseau)
LumiCal - luminosity measurement
ILC physics: the required precision for L/L ~ NB /NB should be better than < 10-3 (at production of 106 W+W- or q+q- / year ) or ~ 10-4 (for Giga Z mode – 109 / year )
Counting rate NB of the Bhabha events : e+e- e+e- in small forward (Left-Right) LumiCal calorimeter will be used to measure the integrated luminosity : L = NB /B where B is precisely calculated from theory
To fulfil this task, it is necessary to build: ● luminosity detector with micrometers precision ● on-line running system (Laser Alignment System, LAS ) for precise measurements of the positions of the LumiCal and its internal layers
QD0
Monte Carlo studies
LumiCal is part of global ILD software Geometry: Mokka (Geant 4) Reconstructon: Marlin Bhabha events generator: BHLUMI Background - Guinea –Pig Physics generators: PYTHIA, WHIZART
● Detector optimalisation ● Digitalisation-simulation of the signals in readout electronics ● Influence of the background (physical + beamstrahlung) on luminosity measurements ● Top pair production at the ILD
Scattered electronsScattered electrons
e+ e- pairs
beamstrahlung
LumiCal
Emitted photons
Channels occupancy / trainBhabha : e+e- e+e- (n)
Mokka – ILD detector
Top quark mass reconstruction in ILD
mt = 175.008 ±0.335 GeV
LumiCal
LumiCal : Mechanical design - preparation for prototype
The first beam tests of prototype – end of 2009
Internal structure: 30 tungsten+silicon sensor layers, cooling system, place for readout FE electronicsIntegration with ILD: shape of beam pipe in front of detector, support carbon tube
Hamamatsu sensors -
two sectors for beam testSilicon sensors-tungsten connection
fanout
Laser position monitoring system
Method: two laser beams (one perpendicular and the other under 45 degrees), CCD camera, optical linear encoder (res. 0.1m)
Laboratory setup
Dedicated CMOS sensor –readoutelectronics
The achieved accuracy: ± 0.5 m in X, Y direction, ± 1.5 m in Z dir.The sensitivity to temperature changes: 1 m /10 C. These results satisfy the necessary precision required for LumiCal position monitoring
Required accuracy in displacement measurements: a few hunhred micrometers in (X,Y) directions,better than 60 m for a distance between both calorimeters and 4 m for the value of inner radius sensors
System integration with structure of ILD detector
Transparent position sensors :
Special transparent sensors (CMOS, CCD) placed on each sensor plane Problems with reflections Degradation of the beam shape for deeper planes Similar electronics as in pos. system for calorimeter
Other activities : displacement measurement of individual sensor layers
One laser beam lighting or individual system for each sensor plane
Spanned wire going through the holes in sensor planes working as antenna and pickup electrodes to measure the position of sensor layers
Spanned wire method
Active during time slots between trains
Possible interferences Accuracy up to ~0,5 µm Quite simple electronics Need 4 coax cables for each
plane Currently working on the
prototype
Achievements 2007 - 2008
23 Talks at international conferences, workshops or collaboration meetings
13 Reports
5 Papers in conference proceedings
PLANS
In the nearest future:
● Beam test of the LumiCal prototype – expected at the end of 2009.
This task will be continued within EUDET Project and FCAL Collaboration.
EUDET is scheduled to be finished at the end of 2010.
● Preparing the prototype of the system for displacement measurements
of the individual sensor layers inside LumiCal
● Attempt to extend the manpower of NZ13.
Step in this direction: since January 2009 a student from FP7 Marie Curie
Initial Training Networks will work part-time
● Final decision will be reached about the possibility of using LumiCal sensors in Super Belle
● Activities within FiTAL (Polish Network on Physics and Technology of Linear Accelerators)
Long-term activities:● Further development of LAS, including measurements of distance between
both calorimeters – system design will be built together with other components
of ILD - 2009-2012
● Collaboration with CLIC project on physics and forward detector R&D
● Activities with LLRF system (XFEL project)
according to the prepared agreement for 2009-2014
5 FEB 2008 Piotr Malecki 82
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
11.04.23 J.Turnau NZXI - H1
Experiment H1 at HERA (DESY,Hamburg)
Kraków H1 group:
Staff: 4
PhD Students: 3
Diploma students: 1 in 2008/2009
Technical-engineering staff:1
Experiment aims:
•Precision measurements of proton structure function
•Precision tests of QCD and studies of QCD evolution
•Search for new phenomena
Closed June 2007
Data analysis forseen till 2013 (2014 ?)
11.04.23 J.Turnau NZXI - H1
Kraków H1 group activities
•Data taking shifts
•Coordination of Monte Carlo production
•Maintenance of the MC-production data base
•Monte Carlo production on H1 PC-farm at DESY (from Kraków)
•Hall technician
•Participation in dismantling of the H1 experiment (5 techniciens)
Maintenance and operation
Physics:
•Publications, internal reviews
•Presentation of H1 results at international conferences (three in 2007, one in 2008)
•Habilitation thesis („The hadronic final states in deep inelastic ep scattering at low Bjorken x at HERA”, 2007)
•Data analysis
11.04.23 J.Turnau NZXI - H1
Data analysis• Studies of parton dynamics at low values of Bjorken x
•Study of hadronic final states at high Q2
•Study of strangeness production
Physics motivation : limitations of NLO DGLAP description of QCD and search for economic description of the data. Present work : measurement of angular correlation between forward jet and scattered electron.
•Search for instantons
Physics motivation: Instantons as a non-perturbative topological fluctuations of the gluon fields are a basic feature of QCD. Discovery of I-induced process would be of fundamental significance.
•Measurement of azimutal asymmetry in production of charged hadrons and energy flow
Physics motivation: comparison with resummed QCD NLO calculations .
Physics motivation: studies of strangeness production at HERA. Study finalized with H1 publication „Strangeness Production at low Q^2 in Deep-Inelastic ep Scattering at HERA ” (Submitted to Eur.Phys.J.C)
11.04.23 J.Turnau NZXI - H1
Why azimutal asymmetry ?
ZEUS measurement shows large deviations from QCD NLO calculation where it is not expected : independent measurement by H1 would be of interest
11.04.23 J.Turnau NZXI - H1
Strangeness production in DIS
Description of strangeness production in hadronisation models is governed by „strangeness suppression factor” s related to probability of creation of strange-antistrange pair from vacuum. Published study shows that
•different models (CDM vs. LEPTO) require different values of s for data description
•No single value of s can describe all details of the data
11.04.23 J.Turnau NZXI - H1
Financing
•Budget IFJ PAN:
•Grant MEiN for participation in the H1 experiment 2008-2009 : 119000 zł
•Gran MEiN for PhD student 2007/2009 : 23000 zł
•Travel and living costs partially financed by DESY
•Polish-German Joint Research Project IFJ PAN – DESY financed jointly by PAN and DESY 22000 zł/year (2006/2007)
Future Plans•H1 data (HERA II) analysis continues till 2013
•H1 Krakow will continue support of MC production as long as H1 Collaboration requires as well as other collaborative efforts
•We will continue analyses which had started and possibly (if students available) start new on high Q**2 hadronic final states data (e.g. strangeness production in HERA II ( connection to instanton searches)
11.04.23 J.Turnau NZXI - H1
Staff:
PhD Students:
Diploma student:
Technical-engineering staff:
•Jacek Turnau
•Lidia Goerlich
•Stanisław Mikocki
•Grażyna Nowak
•Anna Falkiewicz (till February 2009)
•Izabela Milcewicz-Mika (maternity leave)
•Paweł Sopicki
Piotr Hytroś (2008/2009)
Antoni Cyz (computer scientist)
Members of the Kraków H1 group
5 FEB 2008 Piotr Malecki 90
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
OUR PHYSICISTS AND ENGINEERS PARTICIPATE IN SEVERAL MAJOR EXPERIMENTS PERFORMED BY LARGE INTERNATIONAL COLLABORATIONS
OUR PARTICIPATION IN AN EXPERIMENT ALWAYS COMPRISES PARTICIPATION IN PHYSICS PROGRAM AND IN DETECTOR CONSTRUCTION
91 5.02.2009
Manpower (end 2008)
Physicists:
2 professors, 3 senior physicists, 1 PhD student, 1 diploma student
effectively: ~ 6 persons
Engineers: ~ 3 effectively (till 29.02.2008)
…we investigate the fundamental particles and forces of nature
in high energy e-p interactions...
12-th Department of Hadron Structurehttp://www.ifj.edu.pl/dept/no1/nz12
The ZEUS experiment at the HERA collider at DESY
92 12-th Department of Hadron Structure, 5.02.2009
Contributions, responsabilities (1)
Before 30.06.2007:
On-line and off-line luminosity measurement, lumi software optimisation
Data taking ~25 8-hour shifts
Monte Carlo production in Cracow
Physics analysis: hadronic final states in DIS,
diffractive Vector Meson production
The ZEUS experiment at the HERA collider at DESY
93 12-th Department of Hadron Structure, 5.02.2009
Contributions, responsabilities (2)
After 30.06.2007: Lumi software optimisation (error ~2%),
final luminosity calculation
The ZEUS experiment at the HERA collider at DESY
94 12-th Department of Hadron Structure, 5.02.2009
Contributions, responsabilities (3)
After 30.06.2007:
Detector dismantling...
Physics analysis: First measurement of the Bose -Eintein correlations between neutral
and charged kaons (Phys. Lett. B652 (2007) 1-12)
Completion of the final publication on photoproduction of the J/Ψ meson
at large momentum transfer – observation of the BFKL dynamics at HERA Comprehensive study of the correlations between identified hadrons
and scaled momenta distributions in DIS
ALICE a large ion collider at CERN LHC
95 12-th Department of Hadron Structure, 5.02.2009
Investigate the p-p, p-nucleus and
nucleus-nucleus interactions
at LHC energies to study the physics
of strongly interacting matter
at extreme energy densities
...Study „central” diffraction at LHC...
96 12-th Department of Hadron Structure, 5.02.2009
Achievements 2007 - 2008
27 published papers,
6 presentations at international conferences,
Finances 2007 - 2008
Salaries:
KBN special grant: 100 000 PLN
Plans 2009 - 2010 ZEUS: continue ongoing analyses ALICE: data taking and physics analysis
12-th Department of Hadron Structurehttp://www.ifj.edu.pl/dept/no1/nz12
5 FEB 2008 Piotr MALECKI 97
DIVISION of PARTICLE PHYSICS & ASTROPHYSICS
GRID Activities 2007-2008
• WLCG and Tier2• BalticGrid and BalticGrid-II• Local analyses cluster (Tier3)
GRID Activities 2007-08: WLCG and Tier2Contribution to WLCG & development of Polish Tier2 and its use
IFJ PAN a coordinator of Polish Tier2 consortium (Krakow, Poznan, Warszawa), signed MoU with WLCG
PolTier2: ~4000 cores and 200 TB disk storage, ~50% in Krakow (Cyfronet), contributing 3*106 kSI2K CPU hours in 2007-08
Participation in the WLCG Service Challenge and Common Computing Readiness Challenge (CCRC’08) and regular MC production (ATLAS, LHCb, Alice)
Coordination of ATLAS activities in FZK cloud, experiment liason in Tier1, Tier2 operation support and monitoring
BalticGrid and BalticGrid-II Projects
20042004 BalticGrid 2005-2008 (6th FP, 30m, budget 3.0 M€ ) BalticGrid 2005-2008 (6th FP, 30m, budget 3.0 M€ ) Aimed at erasing the apparent digital divide in Europe:
establish GRID infrastructure in Baltic states 10 partners from Baltic States (Lituania,Latvia, Estonia) +
Poland, Sweden and CERN (GRID experienced partners) IFJPAN contributions: NA2 project leader (dissimination and
outreach), NA3 (pilot applications), SA1 (grid operations)
BalticGrid-II 2008-2010 (7th FP, 24m, budget 3.0 M€ ) BalticGrid-II 2008-2010 (7th FP, 24m, budget 3.0 M€ ) To integrate the established e-infrastructure with EGEE
and to expand it into Belarus 13 partners IFJPAN contributions: NA2 project leader (dissimination
and outreach), SA1 (grid operations), SA3 (application integration and support)
Tier3 cluster at IFJ PAN• a part of WLCG/EGEE but reserved
mainly for local users (lower priorities for Grid jobs)
• CPU: – 8x 4-cores Xeon
5140@2.33GHz– 6x 8-cores Xeon
5430@2.66GHz– RAM: 2GB/core
Total 80 cores: – 4 cores – for monitoring,
balticgrid – 8 cores – for ulhcb and ibelle – 68 cores – batch system for
grid and local batch jobs
Grid 40%Local 59%Other 1%
Usage of Tier301.01.2007-31.12.2008
StorageData 7.2 TB 46% freeHome 1.1 TB 36% freeAtlasData 26 TB 90% free
PBS: managed via MAUI - fairshare
VOs: atlas, belle, balticgrid, lhcbExperiments: ATLAS, Belle, LHCb
atlas
lhcb
balticgrid
uatlas
ulhcb
Belle
HEP Outreach 2007-2008
• International Particle Physics Masterclasses for High School students
• Physics teachers programme ‘Polish Teachers at CERN’
• HEP outreach to tax-payers: Science Festivals
International Particle Physics Masterclasses 2007, 2008International Particle Physics Masterclasses 2007, 2008
• Organized at IFJ PAN since 2005 ( EPPOG coordination)• A full day workshop for High School students & teachers : lectures, data analysis at computers, visits to laboratories,a videoconference
Students take part in an authentic research by analysing a genuine LEP data
• 40-50 Krakow’s students each year, among ~5000 from Europe, N.&S. America, S.Africa• Efficient way to improve the understanding of scientific research
Physics teachers programme ‘Polish Teachers at CERN’
• The project funded by the Ministry of Education to foster teaching of micro- world physics and modern technologies: ~160 teachers (4 groups) attended 1 week long program at CERN: lectures in polish (the lecturers included physicists from IFJ PAN), detector exercises, visits to experiments) • The follow-up programme in Poland: workshops at home Institutes to review teachers acquired knowledge and to help them transmitting it to students • Two-day long workshop in IFJ PAN (Nov
2007)
HEP Outreach to society Marking the LHC startup at ‘Science Fair’ 16-17/05/2008, Main Market Square
The exhibition shown also at the Polish Radio Science Picnic in Warsaw (large impact, >100k visitors), some parts used in the exhibition ‘The LHC, how it works’
105
Teaching
Academic year 2007/2008 eight students in the specialization
Courses – on average 450 hours per academic year lectures, seminars, problem solving sessions and laboratory work
Research work students participate in the experimental program of our Division, mostly during the preparation of their diploma theses and during summer practices at IFJ PAN
Diploma theses 12 students (from the Jagiellonian University and from the Cracow’s Technical Universities) graduated in the academic years 2006/2007 and 2007/2008 having for supervisors the researchers from our Division
Researchers from the Division of Particle Physics and Astrophysics are co-responsible for the specialization in experimental particle physics at the Jagiellonian University
THANKS !
JOHN !!!
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