SUBJECT INDEX

L2phase relationship ~3relationship 3/p tf1R a ,a-di pheny 1-I3-pi cryl-hydr azy Ie a,~ bis (4-n-alkylanilinebenzilide-4'-oxy! alkanes V-ray Compton scattering 3He-4He dilution refrigerator 'Greek key' motifs 'Voigt' peak-shape function (I E21 -1) Pat terson map 4-n-alky loxybenz iIi dine-4' -alky Ian i 11 nes 1-( tr ichlorosi lyl) -1 ,2, 3,4-tetrahydro-1 ,10-phenantrol i ne 2,3,7,8,12,13,17,18-octaethylporphyrinato 3D Penrose tiling Ab-inl tio Ab-ini tio determination Ab-ini tio methods Absorption Absortion coefficients Absorption cross section Absorp t i on edge Accelerator based pul$ed sources Acceptance cri terion Acous tic phonons AD(J.lE Adsorbates Adsorption Alcaligenes eutrophus alumi nate sodali tes Aluminum American Crystallo9raphic Association Amorphous alloys Anger camer a Angular di spersi ve geometry Angular resolution Anharmoni c di splacetnents Anharmonic effects Anharmonici ty Anion"1<later complex Anisotropic Mosaici ty ANL Anomalous di ffraction method Anomalous dispersion Anomalous dispersion of X-ray scattering Anomalous line broadenin9 Anomalous scattering Anomalous X-ray scatterin9 Anomalously scattering Anomalously scattering atoms An t i-Stokes Antidomin9 conformation Applied electric field

593

419,433 433 516 93,94 573 233 165 514 569 426,432 573 89,90 265 333 147 304 5 510,511,514.521,525,527,528,533 571 138 192,511,521.524,525,527,536 138 422.424,425 61 361 101,102 101,106 208 582 320 4 97 123,124 445 319 173 90,91 42,43,44,227,230 96 128 125,126,131,132,134 526 "7,1~,~9,3W,.2,.3,.4,.5,.6,~0.5~,5a.5~,5n 369 46 200,201,210,522,523,524,533,568 357,365,369,373 , 376 380 380 ,381 , 383,384 .. 61 269 174,175,183

594

Aoueou:· ~.olu t 1 orr Area dete-ctor

Argand dla',ralll Arndt-.worracot t c~er a Arndt-Wonacott oSClllatlon caner a AnMeniu~· type behaVior Asparagine AtomlC: reactance matrix Aus ten I tic steel Auto-correlation function Auroindexlng Bad.ground Hlten~·i tv Back scatten ng Bacter i orhodoPs.i n BanO,.Ji dtM Bar ton Bean lines Beevers-Lipson strips Bendi ng magnet Biochemistry 8i olo9i cal macromolecules Biological molecules Bi ologi cal solut ions Biomimetic comolexes BlTefringence Bloch states E)',L Sonse-Hart caner a Bovine -II crystallin Bovine serum albumin Brags vector Brasg's law Brei t-Wigner Brei t-Wigner nuclear resonance Brilliance Brookhaven NL 8rownmilleri te-type structure Bunch(es) Caltlilum Caooi urn mas¥.. Cambridge crystallographic data file Carbenes Carbides of transi tlon metals Car bobenz oxy-Al a-Ala-(AlaPhe) -Chl or omethy 1 ketone Carbonomoxy myoglobin CatalytiC acti'Jl ty Cation distribution Cell dlmensi ons Ceranlcs CEP.N CESR Chain unfolding Charge densi tl e:"

94 40,54,488,492.493,494,4%,497,498,501 502,537,538,539,544.545,546,549.551 521 517,542,549

494 214 252 101 221,222 179 544 61.68,72,249,262 372, 4B7 .490 192 3 488,491,492,493,496,497 2 475,476,478,493,497 248 509,511 ,524,527,532 143 453 247,272 198 250 361 481 512,514,515,522 373,374 224 11,18 252 12 475,478 80 327,5n ~7,~8,~9,3~,3~,~2,~4,~5,~6 320 160,161 5 272 90 565 489,499,501. 502 487 BS 554 97 373 361 455 4,217,219,220,224,227,230,245

Charge polarisation Chemical reaction Chemical reactivi ty Chemi sorDed !1)olecules Chemisorption Chemistry of the transi tion and f elements CHESS ChopDers Circularly polarized CI"14ater interaction Closed-cycle helium refrigerator Closed-shell Coherent Coherent cross section Coheren t scat ter i ng Cold neu trons Cold sources Collimation Commensurate Compressibili ty Compton scat tering Colllfiton shift Computer modelling Conformational changes Conformational transi tions in proteins Conservat i on 'of energy Conservation of momentum Conservation relations Constant K technique Constant"14avelength neutrons Con t i nuous vs. Pulsed sources Contrast variation Controlled atmosphere Cooler Cooper tetrakis(imidazole) Coordination chemi stry Cos ts of bi 9 sci ence Cri tical expoent of the transi tion Gri tical Wavelength Cross sect ions Cross-ci tations Cryoenzymology Cryoprotectants Cryostasts Crystal monochromator Crystal mosaic Crystal [Iounting Crystal structure from powder data Crystallin eye lens proteins Crystalline orientation distribution function Crystalli zation Crystallization processes Crystallographic temperature factors Cr'/stallography

227 317 583 106 105 16 227,492,499 138.140.141 278 96 165 222.235 15 12.14,19 12 105,lOt 81 159,160 ,172,176.178,188,191,195,296 102,103 179 2M,2n,2~.~3,2M.2~,~7,~9,2% 231 491 487,488,498,503 487,488,490,502 64 64 63 20 137,138,140,141 344 14 172,173 126 270 254,267,272,273 4,5,7 179,180 188,192 14,15,17,249.250,252,253 1 488,489,494,495,498 516 126,138,160,165 491,493 120,121,122,124,128,129 544 147 514,515,536 338 314,338 338 491 28,54

595

596

Current densi t'l Curved one-dimensi onal PSD Cyani de;. Cyclic hexapeptides Cvtochrorrl@ c' C'Itochrome c4 Cytochrome c550.rtCl Cytochrome P _ 450 [¥.lCIl1 r':!::~ing function Daresbury DalJmas-Herold mechan: sm DCI De Broglie relationship De Brc,glie's equation Debye-Scherrer ring Debye-Walier factor Debye-Waller temper atlJre factor Deflection parameter Deformation density Oehydr at i on process Densi tomeny Dens! ty functions Deoxy-hemerythrin DES)' DES)' Hamburg Difference Fourier syntheses Differential scanning calorimeny(DSC) Diffracted intensi ties Diffracting power of crystals Diffraction physics Di ffuse scattering Dig! tised film image DH.etopiper azine Dirac-Fourier transform DIRDIF Direct method Di rect methods solution from powder data Di rect phase determi nati on Direct phasing multiple solution D i sacchar i de Di sorders ttlA fibres Doming conformation [loppler broadening DORIS Dori;. at Des'! Hamburg Double focusing camera DOlJble-f ocus;·i 09 Dri ft Dr i f t chamber ['rug industry DTA (Differential Thermal Analisys) Dynami c changes

218 313,318 145 423,426,428 525,526 541 :382.383 247 493,497,498 254 ~7.~8,5~,~2,~5,~6,~7,~9,~2,~8,5~ 322 278,279,361 14 11 296 ~,U3,n5,n7,2M,~5,~7,~B,4~

118 190,476 227,228.244 336 538 218,219,220,222,224 267 208,210,212,235,358,360,361,364,376 207 517 456,457,462,465,466.468,470 121,122,129 510,511 61 84,111 538,542 147 221 ,223,231 436,437,441 3 148 419,432,433 432 539 419 510,531,532 269 231 ~7,~7,~8,3~,3~,~4,~5,4~,~8,~3 448,449 448 496 375,376 374,375 4 326 487

Dynani c di sorder Dynanic nlJclear polarisation [lynani c of moleclJles Dynanical processes Edge singulari ties Ei1i (Evolved Gas Anallsys) Elastase-substrate complex Elastic coherent scattering Elastic neutron scattering Elastic scattering Elas tic scat ter i ng surf ace Electric field Electr i cal conducti ng polymers Electrical resistivi ty Electron deformation densi ty Electron densi ty Electron density distribution Electron densi ty maps Electron distribution Electron scattering Electron space Electronic structure Electronic transi tions Electrostatic potentials EMBl EMBl at Desy Hanburg Emi ttance Enantiomorphs ENDIX Energy dispersive X-ray Energy scanned spectrometers. Energy transfer Enzymatic reactions Enzyme Enzyme phosphorylase b Enzyme-substrate binding Ep i thermal peak EPR ESR ESRF Eu-enkephali n European Storage Ring Facili ty (ESRF) European Synchroton Radiation Facilli ty(ESRF) Ewald construction Ewal d sp her e EXAFES (spectra)

EXAFS Exchange correlati on Exci tations Exci ted state atomic: orbi tals Extended continuum Extinction FAST area detector

489 373 105 77 ,lOG 248 326 499 12,25 159,165,171,179 15 63 187,197,199,200 444.473 466 89.90,91 209,210.217,220.222,227,230,241 ,4B8.490, 586 586 512,513,514,515,517,519,523,526 586 219 2i9 217,220,230.233,235 248 4 364,370,373,374,375,493,56B 512.514 475 425,434,441 571 571,572 247,279,281,282 78,79,80,83,94,104,105,106,109 487.488,494,495,498 487,490,491,495,498,499 516 509 141 529.530 467,468 212 430.432,434,435,436 492 444,475,476.478,479 119,120

597

63,64,230,492 2~,~8,~9,2~,~3,~8,~9.2~.2g.~2.2~,~7,~8,~9,2~ V2,2n,V4,V5,V6,V8,V9,2~,~2,~3,2~,~5,~6,~2:2~ 488.510 ,52?, 528 ,529,530,533,585 219 62 224 249,264 122,124.134,135,225,226.227,244 493,494.497

598

Fast-Ion conductor,. Fast-scannIng TV detectors Fei Ii} (N-methyl iml dazole) FEL FermI momentum Ferri tin Ferro-magnets Ferroelectric NitlO Ferroic phase tranSI tlons Filmpad First order phase transi tions Fixed wavelength Fixed wavelength techni ques FIXed-angle scattering geometr'l Flight path Focusi ng monochromator Forbidden reflections Four-cHele Eularien craddle FOIJrier filtering technique Fourier inversion Fourier sum fourier transforms Frapient Free electron laser Freidel law Full whi te beam Full-width at half maximum (FWH1) Furnaces FZetl progr amme Gas chromatogr aphy Genetic engineering Germanium GKSS Glassy SiO Gli tthes Glucose-i-phosphate Glutamine Glycogen phosphol'llase b GPPD Grafuil ,.urface Gramicidin A Graphl te Green's function Group veloci ty Guai anol i de Gu i n i er -Hagg camer a HID exchange Half -wi dth dependance Hamburg Hankel propagator Hard background radiation (Bremsstrahlung) Harker constructlon Harmonic Harwell

314 497 ,4~8,503 270,271 359,360 235 524 92 344 582 549,552 313 137 178 159,160,171 ,176 31,32,33,34,36,59,139,140,147 448.449 40,227,230 78 152 225 17 222 U9,4~,4~,4~,~5,~6,~9,4~,~6,~7,4U 359 521,526 537 34,35,296,297,299,313,319 138 148 466 205,210,213,214 279 373,376 150,157 282 518 214 499 137,141,142,145 101,102,103 551,554 235,236 250 70 420,441 298,301,303 88,213 295,299,302 539 250 481 522 42,43,552 80

Hassel flASYLAB Hasylab Hamburg Heat jumps Heat pulses Heat shield Heavy atom Heavy atom derivatives Heavy atom soaking Helical 10-residue peptide Helical 16-resldue peptide Hellman-Feynman theorem Hemoglobin Hepteni to I-arsenate Hep tulose-2-phosphate Heterogeneous chemical reactions Hexagonal tungsten bronze FeF High resolution experiments High resolution X-ray data High-pressure High-pressure diffraction Hi gh-pressure gas detectors High-temperature diffraction High-temperature Guinier cameras Hi9her fluxes Highly oriented pyrol'Hic graphi te Hohenberg-Kohn theorem Homogeneous catalysi s HOTlzontal/ver ti cal polar i sati on Hot sources HRPD HRPD instrument Hydration/dehydration of soli des Hydrat ion/dehydr at i on react ions Hydr az i De sulphate HydrogeD-bondi ng Hydrostatic pressure jump method 12-doped polyacetylene IBR-2 Icosahedral phase Icosahedral Quasiperiodic crystals Identi ficativn of new materials ILL I LL Grenoble Imaging plate Imited data Incoherent Incoherent cross section Incoherent Scattering Inconmensurate Inconmensurate distortion Industrial catalysis Inelastic coherent scattering inelastic incohercent scattering

3 m .371.376,493 444.479,480 489 489 160,161,162,163,171.172 422.425.426.429 206 512 436.438 437 220 366 4'39 499.516, 5i8, 519 444 337 138,146 509,510,511.512,514,515,517 159 175.176,177 ,178,179 ,183 318 159,163.170 .171.172,173,li4 .178, 183 326 77 .81,86.101,106 318 219 248 188 81

599

34,45,47,48,49,50,51,52.53,69.139,140,141.142,147 .154,157 68 337 317 147 87,88,89,109,115,117,143 326 474 117,130 333,336 333 77 36,42.44.47,126,130 80,81,111,116.149 212,551 419 15 13,19,21 130,587 40,102.103 333 248 12 13.14.21,25

600

inelastlc neutron scattering Inelastic scattenng ineias\lc TOF Ingold Inherently pulsed sources Inhibi tors Inorganic chemistry Institut Laue Langevin (ILl) Instrumental resolution Integrated intensi tv Intense Dulsed neutron source Intensi tv Intensl t'l measurements Intercalation I nterf 11m scalei actors International Union of Crystallography Introduction to crntal chemistry in'lanant I Inverted TuF Ionic conductors IF1>lS I PNS Argonne I rreversible processes ISIS ISIS U.K. ISIS-II I somorphous replacement Isotopic replacement J. O. Bernal K. Weissenberg KENS KENS Japan KENS-I' KFA Julich Kinetic crystallography Ki net i c exper imen ts Kinetics Kinetics of the phase transformation Kramer-Kronig relationship Kratky camera L.lI.R.E. Lactoierrin LAD Lameiar morphology Langbeini te IJt.lSCE Lanthanum magnesium OJ !rate Laser Laser chemi stry Laser pulse annealing Lattice distortions­Laue difiraction Laue method Laue photographs

11.19.20,21.22,61.7i ,81 ,82 .103 ,105,115,159.165,171,179 22 111 3 117 516,518 248 360.373 128,139 196 165,178,179,182 ~B,5~.~1,~2.~5.~6.~9,5~,~4,5~

537,549,552,554 105,106 552 2 2 455,456,457,458,459,460,461.462 111 171 ,175 27,28,36,40,117 81,137,141.142.145.149 343 27,28,29,34,36,43,44,45,47.48,49,50,69,117 .122,123.126,130 137,138,139,141,142,147 28,42.58,59 98,379,383,384,386,512.520,523,524,526 106 2

" 28 80,137 28 80,360 549 516,517 322 326 200 448 278.280 529 34 447,460 46,47,48 28,29 Hi 359 ,360 • 363,364 489 489,502 48 488,491,492,493,499 206,211 ,212,537,555 537,538,549,552

laue techniques Lawrence Bragg Lead levinson's theorem Light induced polymerization Limi ts of time resolution LI~C

Linde type A Line shape Linearly polarization Linus Pauling liquid alloys Liquid crystal phases Liquid metals Li thi urn iodate LLB Saday Long period Lorentz factor Lorentz-Gaussian convolution Low temperature magnetic behavior Low temperature protein crystallography Low-temperature diffraction Luminiscent foils LURE DCI Lysozyme Macromolecular structure determInation Magnetic Compton scattering Magnetic field Magnetic form factor Magnetic interaction Magnet i c momen t Magnetic moment in elemental iron Magnetic relaxation Magnetic scattering Magnetic space groups Magnetic structure factors Magnet i c structures Magnetic X-ray scattering Magneti sati on Magnetisation densi ty Magnons Mater i als sci ence Mel ted glasses Meso liquid crystal phase Metal oxides Metalhydrides Hetalloproteins Metastable state Misplaced molecular fragment Mi thrii progralVTle Mo bauer Mo bauer diffraction Mo bauer scattering Moderators

84,85,117,493,499,503,51[:,518,517 .33j

72 263 317 343 13B 22 321 2501278

94 573 171 327 80 446,454,455,457,474 196 108 327

601

494,495 159,162,163,164,165,166.167,168.169,170,173.176, i 78 .183 492,503 233 , 234 ,235 499 379,381. 384 238 188,190,191 79,92 14 78 14 317 14,16,118 91 17 78,79,91,118,138,146,157,167 239 218.240 17,18,19,77,79,91,92,93,94.240 63 248,275 171 454.455 173 143 509.510,521,525,527 488,497,49B 419,430,431 148 357, 364 , 366 ,367 , 369 364,367 364 29.31,34,36,42.140,141

602

Molecular orbi tal theories Mol ten sal IS

Momentum densi ties Homen t urn sp ace Momentum transfer Monochromatised syncnroton radiation Monochromator Mon te-Car 10 methods Mor,thieth RoDert,.on Morphology tr an sf ormations Mosaic Mosaic ,.pread Mossbauer spectroscopy Mul ti -crystal backscatter ing Mul t i -wavelength anomalous di spersion Mul ti -wavelength technique Mul tl-wi re proporti onal chillibers Mul tielectron exci tations Mul tilayers Mult i ple dif f r act i on Multiple ,.cattering Multiple scattering angles Nul tiple scattering theory

Nul tiwi re proportional counters Muscle exci tat! on Myoglobin Naphtalene Negative Quartets Neumann propagator Neutron diffraction

Neutron diffractometer Neutron energy range Neutron polari zers Neutron powder diffraction Neutron powders Neutron radiation Neutron radiography Neutron scattering Neutron thermodiffractometry (NTo)

Neutron wavelength Ni trenes NLS NMR NMR spectroscopy Non-anomalous scattering Non-reversi ble processes Non-stoichiometric oxides Nonmetal! i c glasses Normalized reflections Normal i zed structure factor NSLS Nuclear de,.magnetization

90 94 217,221,230,231,233,237 217,218,221,222,223,233,237 15,2178,79,80.97,105,109,115 537,538 279,282 5 2 446,447,454 226,230 554,555,560 337.338 111 379, 380 ,384 525,526,533 497,498 263 481 195 41,225 162 247,249,250,251,252,254,259,260 262,263,264,270,271,273,274,275 211 453 487,507 117 148 252 78,81,88,91,97,159,162,163,164,165,166,167,170 171,173,174,175,176,177 ,178,182,183, 227 ,244 62 78 91 295,296,297.303,312 152 205,206,213 99 9.11 ,14,19,217,218,226,227,363,373 326 78,84 272 361 88,488 3,5 380 , 381 ,383 317 90 94 419,441 419,422 569 165.166

Nuclear forces Nuclear interactions Nuclear potentIal Nuclear resonant diifraction Nuclear resonant scat ter i og Nuclear spin dependent neutron scattering Nuclear structure factor Nucleation kinetics Oak Ridge Octovneth'll tetrabenzporphyri nato ni ekel (I i)

01 i gonuc!eoti des Oligopeptide Cinega ~ One-phonon scattering surface One-wavelength anomalous dl spersi orr Open-shell Optical density Optical pumping Order parovneter of the tranSl tion Order- di sorder in alloys Order-di sorder OrganIc conductor Organic solid state Organometailic hydrides Organometalli cs Orientation aogles OSCIllation photographs Oscillatory structures Oxo-vanadyl porph'lrins Oxy-hemerythr i n Oxyhemogl obi n Par ovnagnet i c magnets Partlai structure refinement Partial structure techniques Path-length Patterson function Patterson synthesi s Paul Ed.lald Peak srJape Penetrating power Performance compar i sons Periodic measurements Perovski te Pero'iski te related system Perovski te ~·tructure Perturbation methods Peter Debve Phase determination Phase di f f er ences Phase di stOTt ions Phase ex tensi (,n Phase problem Phase sets Phase transformations

12 12 12 369 357 ~364 ~ 365 ~ 366 .. 369 l 374 357,376.378 16,17 326 80,81 271 538 551 22 63.65,66.67 382.383 219 544 490 179,180 145 103 84.85 58:3 143 538, 539 ,54~ ,554,556 552 512,537,538,542,549 24B 263 267 267 92 425 4~,~2.~3,~5.~9,4~.4n.~4.4~,~7 123 422,436 520,523,525 2 2:35J2~16 ,298, 299, 30D) 3(11 159 130 343 577 ,578,590,591 327 179 450,451,454.475

421 ,423,431. 433 380 , 381 ,382 , 383 , 384 260 425,426,427 t 429 t 435. 437 198 419 326.338

603

604

Pha~-e transi tion studies Phase tr ansi t ions Phase veloCl tv Phase( s)

Phase-sh i f t Phonon absorption Phonon emi ssi on Phosphor Phosphorylase Phosphorylase b Photoelectron Photoelectron wavelength Photon Factory Photon iactory at Tsukuba Photon fluxes Pinhole c;nera Piperazine Plagi oclase Polarisation Polarised neutTC'n scattering Polarization analysIs Polarization averaged absorption coefficient Polarization efficiency Polarization mi Trors Polarization neutrons Polarized neutron scattering Polarized-be;n tecnhi Que Pole figures Poiimeric chains Pol yethylene Polymer crystaliization Pol ymer research Polymer science Polymer stretching Polymorphic transformations Porphyrin chemi stry

Portland cemen t Posi tion sensi tive detector(PSD) Powder data Powder dit fr act i OTt

Powder neutron diffraction Prediction Pressure cells Primary extinction Profile fi ting Profiavin Protein crystallographer Protei n crystallogr aphv

Protein crystals Protein design Protein neutron crystallography

48 84,164,168,170,173,176,179,582,588,590 61,65.70 419,420.421,422,423,424,425,426 427.429,430,431,433,434,435,437 2~,~2,~6,~8,~9,~2,~5,~7,2~ 61,62,64,67,69 61,62,64,67,69 545 554,556 516,517,519 249,250,253,254,258.263,271,292 528 525 361 188 447,448,476,479 539,541,556 343 373,374,378 118 77 .91,94,105,106 253 91 91 91,94 374 18 338,343 247,275 98 444,453 98 444,485 453 327 ~7,~8,~9,~9,2~,2~,~3,~5,~6,~7

268,269,2270,271,272,273,274,275,276 322 84,117,122,125,126,130,131,281,314,445,449,590 147,154 78,83,111 ,313,314 ,317 ,319,320,326,336,338,587 44,58,137,138,140,141,146,152,158,587 552 126,138 122,226,244 295,299,300,301,303,304 489,490 509,520.527,533 41,54,205,206,210,211 ,212,213,214,487,488,489,491 494,495,496,498,499,500,503,538,544,549,568 538,542,549,554 205 213,214

Protein structure Proteinase K Proteins Proton posi tions ProlJsti te Pseudo Laue technique Pseudo-i)oigt Pulse shape Pul se( d) ~.tructure

Pulse(d)(s) Pulsed di ffraction Pulsed neutron diffraction Pulsed neutron scattering Pulsed neutron sources Pulsed neutrons Pulsed sources Pulsed time structure Pumped helium cryostat Pyridoxal-I-phosphate Pyrochlore Pyrolytic graphi te Pyrrole Q-dependent width Quartets Quasi-monochromatlc diffraction Quasielastic scattering Quintets R. C. Evans Rabbi t serum transferrin Radiation damage RAL Raman scat ter i n9 Reaction kinetics Reaction kinetics in proteins Reactor sources Real space Real time Real time di ffraction Real time powder crystallography Real time spectroscopy Real-time experiences Real-time neutron powder di ffraction Reconstructive phase transi tions refinement method Reflectivi ty Resolution Restrained leasr squares refinement Reversible time dependent phenomena Rietveld method Rietveld profile Rietveld prof i le analysi s Rietveld profile refinement Rietveld profile technique Right-ci rcular cone

488,491,493 206.207,208,210,567 78,80,88,89,538,541.542,549,551.552,554 205,213 39.40 482,493,494 3,n ,302 34,58 357,358,362.363,366.374 ~7.~S,3~,3~.%2,%3,%4,%6,r5,r6

145,152 61 27,28 159,160,166,171.173,177 .178,183 137.138,140,141,152,217.360,361,362,363,364.378

605

28,54,77 ,81,82,84 ,86 ,91 ,93,97,101,106.111 ,139 ,141.146 .154 211 165 516,517,518 336,337 63,68,69 268,269 447 419,420,421 120 105,109 420,421 2 511 ,513,523,526 491.493,495.500,509,511 ,514.527,533,536,554,559 127,132 23 44,171,173 490,491 137.138 219,220 488,493.497,503,506 314,444.450,453,466,473.475.481 333 444,465 173 314,318,321 327 333 192 ~,M,r,~.~,~.~,~.~4.~9 208 317 295,296,297, 29S, 300,303,304,307,312,321.569,588 46 141 314 137 63,64

606

R.lSO Natlonal Laboratory Robo ts Roci,lng width Ro tat 1 ng anodes Rubi sc:o Ruifled conformations Rutherford Appleton Laboratory P.utile Saddle shaped conformation SilTlole env i ronments SilTlple Heating problems SilTlple size Scattered neutrons Scattered radiation Scat ter i ng angle Scattering path ScatteTlng potential Scattering power Scat ter i ng ~.urf aces Scintillation detector SCl ntiilati on princi pIe Sece'ndaT'1 extinction Semicrystalline polymers SEPD Serine proteases Shadowing effects Shape resonances Shi r akawa polyacetylene Shock-freezing Sialic acid Sil i cate Sihcon Si ngle crystal di ifr actometers Single crystal neutron diffraction Single crystal pulsed neutron diffraction Single isomorphous replacement Single scattering Single-crystal work Single-electron exci tation Small angle diffraction Small angle scat ter i ng(SAXS)

SNO SNQ Juli eh SNS Rutherford Sof tware Solid gas reaction Sol ids tate phase tr ansf ermat ions Solldification model Solvent flattenlrrg Sound veloci t'l Source point parilTleters Space group P1 Spaee-t ime di agr iITI

343 4,7 547,549 195 206,208,209,210 268,269 360,378 337 269 159,160,162,183 482,485 474 159,160,165,166,171 ,178,183 295 297 250 ,252,253 12 537,541 63,64,65,67 123,124 123 122,226,244 446 36,38,137,149 489,490,495,499 254,257 251 462,464,466,469,470,472,473,485 496 430,431 539,541,556 72 ,121,227,237,244,279 122,126 169 117 521,522 247,253 192 247,248 78,98 83,101,111,446,447,450,454,456,457 ~8,~9,4~,4~,~0,~3,~9,4M,4M

28,360,361 80,81,82,83,101,111 80 131 471 444 98 512 ~,g,A,e,~,71,72,n,~,~

478 423 32

Soalla! i on neu tron SO'lrC!!S 5PEAR Soecific conductivi ties Speci f i c unduiator spectrum Spheruii tes Spin Soin densl !ies SOIP dependent neutron scatterin~

SPin echo SPin echo soectrometers SOl n orbi t coupl1 ng 5pln poiarlsation Spi o-orbl t coupi i n9 Spinnels SQuar i c aci d SRS SRS at Daresbury Stanford Static magnetic moment Steady state reactors Stokes orocess Storage ring Stroboscopic measurements StroDoscopic methods StroboSCODY diffraction Structural lnor'janic Chemi stry Structure analisvs by powder diffraction Structure determination Structure factors Structure instabili t'l Substrates SUPER AGu Super-computers Super-conducting" wl9gler Superconductl vi ty Superposi tlon of harmonics Supperlattice reflection Surfaces Susceptibili tv of the electron state Symboli c addl t i on procedure Svnchroton diffraction Svnchroton powder di ffraction diagrams Synchroton Dowder technique Synchroton radiation (SR)

~-sheet

iangent formula Tar'.!ets TDS error TOS windows Temperature Jumps Temporal resolution

27 ,2B,Z9 ,30, 3i! 33, 34, -+2, 43.44,54,59,89,81, iiI! 139 357,361 445.4i2 478 447.4%.474 14.18.365,366.373.374

9,16,17 .1S. 217 .21&, 219.230.239,240 373 83.105.111 106 239 222 265 145 587 361 49S.:.11.51~, 514 ,516.517.518.519,524. ~.27. 531. 53~, 536 539 16 77 .8u .81 ,82,84.86,91.93 ,101.106,ill 61 191.192 44.343 450 488.498,501.502.503

295 537.538.556 lli.llB.121 167 487.489,490.491.498,499,516.517,518 278 5 190 164.167.166.169.182 554 84 89,99.101.105 17 430,432.433 152.569 571 i3?

607

13&.152,187,188,190,191,192,195.196,200.203.205, 206 .21(' ,2li 212.217,226.233,235.237,240,247,249,277 ,278, 279. 281. 295.29& ~7.~8,3~.3~,~2,%3.~4,~6,~7.~9,~4,~9.i4,"a.%7 %8.ml~2,4~,4M,4~1~6,4~,4%.~9,500.~1.~2.~3 423.426.428 4~.~2,4~.~4,4~,4~,~7,4a.4W.4M.4~.~7 29 61.70.73 69 459 448.451. 452

608

Tereontalic aod Tetr~ethyl ;mnonium catIons Texture In material sCIence Tex ture measuremen ts ,I:il (Tr,ermogravlmetr:c Analisys) Thermal decomposition Thermal diffractometr~J

Thermal diffuse scattering Thermal gradIent TMermodiiir actornetry Thi o-\lanadvl p:oTohyr i no:. Thi osulf ate n-,om~.on scattering Time focussing Time iT arne gener atc<T Time of flight (TOF)

Time of flight technIque

Time resolution t Time resobed Time resolved crystallography Time resolved diffraction TIme resolved structural studies Time structure Time-averaged flux Time-resolved expeTlments Time-resolved powder diffractometr'l Ti tanium-niobium oxides. TOF di ffractometers Total cross section TPR lTemperature Pro9r~ed Reduction) Tran~.ferrin proteins Transien t di sorder Transient interrneaiates Transient phenomena Treating PSI) data Triggering of reactions 'riple axis spectrometer Triple-axis neutron spectrometer Triplet phase invariants Triplet phase relationship Triplets T r i sacchar I de Trvpsin Tunneiing motion Tut ton sal ts of man9ane~.e and nicKel Two-dimension detector screen ultra-high resolution WI tM pulsed neutrons IJitra-high time-resolution techniques Ul tr asmall s~ples Undulators

149 21 98 338 326 336 44,45 61.75,491 162,163,166,167 313 , 326 , 588 263 90 239,240 139 449.471 ll,~,n,~,n,~,~,%,~,~,~,~,«,~,~,~,~,~,~,ro

72,73,77,81,82,83,84,85,105,106,111,116117,120,121,123,125 128,129,130,131,132,134,135,138,139,140,141, 142, 146,149 ,151 157,297,302,312,357,362 159,160,161,162,166,167,168,169,170,171 172 ,173,175, 176,177 ,178, 179,180 ,182 317 357,362,363,364 498,499.500,501,502,503 314,487,488,496 509,516,518,519 3~,~8,3~,%8,~5,~7,4~,~6,5M,~3

86 314,317,588 587 146 328 12 326 511,512,513,522,523,527,529,530 518 516 44 131 488,489,496,500 111 62 380,381,383,384,386 419 148,419,420,421,435 539,541 213,493,494,497,499 77,105,109 93 85 137,146 488 481,482 1~,i~,4~,~6,~7,~8,4~,~1,4~,%8,~2

Uni t cell Vacuum furnace Valinomycin Van Laue Vanadium Vector search procedure VEPP Very small crys tal s Vibrational energy Vibrational modes Vibrational spectroscopy Video camera system Vidicon camera Vi nyl-p-( p' -n-hexyloxyphenyl )benzoate Viruses Voigt function Volume de9ree of crystallini tv Wave particle duali ty Wavelength distribution Wavelen'3th normali sat i on Wavelength of thermal neutrons Wavelength wi ndow Wavelentgh shif ter Wavevector Weberite Whi te-beam Laue diffraction Wide angle scattering(h¥lXS) Wigglers William If-IR If-IR Los Alamos Wooster effect X-N method X-ray X-ray absorption spectroscopy X-ray cristallography X-ray dichroism X-ray diffraction X-ray diffraction data X-ray exci tation spectra X-ray fEL X-ray fluorescence X-ray powder diffraction X-ray scattering XA'lES XA'lES (spectra) XEDL Yttrium iron garnet Zeoli te catalysts Zeoli te H-Z5M5 Zeoli te La-Y Zeoli tes Zinc tetrakis(imidazole) ZING P

ZING P'

542 453,454 423,424.429 1 14,320 436 361 537,542.544.546.549.551 78 21 9 211 449 575 514 301 455.458 10 81 552 11 68,69 190 15 336,337 488,492,493,503 ~6,~9,4~,4~,%2,4~,%5,%6,4~.%9,4~,4n 1~,1M,I~,4~,~6,~7,~8,~2,4~ 1 28,117 137 544,546,549 89 ~,3~,362,3~,3~,366,369,~0,~4,~5,3~ ~7,~8,~9,2~,2~,VB,V9,2U.2U 248,257,277 198 225 537 247,249,283,284,286 360.362 247,283,284,285,286.292 295,297.298,301,303,304,307,312 217,218,219,224 527,529,530 ~7,~8,~9,U3,U4.U5,2U,~3,~4.2~,2U,~2 285,286 72 23 150

609

150,157 21,22,23,87,88,106,117,143,151,314,538.539.547,560 270 28

28

Ag3A~.S:3

AgBr

AIF_ t>

FORMULA INDEX

a-AH-1rrSi

(AIP04)a·(CHa)4NOH

A1 2(t1004)3

A1 203

A14.98S10.071n

(A1 d1n o.72 FeO. 28 AI.J1n

t>

o-Al_Mn b

A185Si(MnO.72 FeO. 28 )14 A1 85SiMn14 BN

B4C

BaC1 2 BaMo 6S8 BaNi03 BaTiO~

j

,Ll-(BEDT-TTF)213

(BEDT-TTF)213

(BEDT-TTF)£<

carboberrzoxy-Ala-Ala- (Ala-PHe)- chloromethyl ketone

4-chlorophenc,1

CH 4 CH3CN

C2Cl 6

C2H4 ~ r· II H d S 2--"4'2 6 Il'13 C6D5NH3Br

C6H5ND3Br

C6H5NH3Br

[:11 H19N09 · 2H{'

C21 H240 3

[:48H68N12012Mg.2CI04·4CH3CN C H N 0 MqCl

48 68 12 20 - 2 CaF 2

611

40

445

592

:33:3

304

149,151,154

34,36,124,179,180

336

33:3

333,336

336

333

333,336

163

163

167,168 "" .. :0' .-,~,=, .;:" ... { ,~.;}--'

117

170

169,170

169,182

567

583

101

426,427

106

304

547

106,107

107

106,107

430

575

426

4"7 '-,

196,226

612

CaP5014 Ca3A1 2(Si04):3

Ca:3Si 05 CaS[(AI02)16,(Si02)24],16H20

Ce02 Ce02_x

Cl

Cl}TH(Ar-Cl) 2 ClO-57 4

Co

Co04 Cr(~))

Cr(CN)4

Cr (CN)6

Cr (NH3 \

Cr(NH3 )6Cr (CN)6

a-CrP04 Cr 2(Mo04 ):3

CsC 24 CsC24(THF) x

CUS04 cyclo(Gly-L-Pro-L-Pro)2

2+ cyclo (Gly Pro Pro Gly Pro Pro) 2Mg

:3,5-dichlorophenol

2,6-dimethyl-phenol

D

DT a('l0 6

D2

D20

EuMorSs ~7 0 0_' Fe

FeAs04 57 FeB03 Fe=C=C(Ar-Cl)2

Fe=CCI 2 Fe( CC1 2)( H20)

Fe=C=Fe

Fe-C_H" b oJ

501,5(12

47

322

88

17:;:,174

427,428

272

427

:369

590

373,374

200,201,228

201

201

227.228

152,15:3, :304, :312

153

:322

322

148

426

429

583

58:3

:374

143

101,10:3,360

88,9:3.95.96.97,178,179.180

167,168

:365, :366 ~ 367

141,142,147.149,150,154,:304

272

273

27:3

273

274~275

FeGe

Fe-N-Fe

FeOCl

FeP04 "'7 ." Fe-YI G

Fe2F5 (OH)

Fel5,2H20

Fel5(H20)2

Fe75 (PC)25

Fe?7 P11 . 5 C11 . 5 Ge 1H

2H 3H

4H

[HRIJ 6 ( CD) 18]

HTB-FeF_.

H2C404 H20

'"

4-isDprDpyl-3-methyl phenol

IBr

InSb

KAIF4

I<NO~ .;j

KPF~ b

r~lHF 4

Kbl

Kr

L4S4

(La1.858aO.15ICIJD4 La2Cu04

LiH

Li C._ b

Li Cl

Li 103

LiNbO 3

167

273

143

141.142

%6

337

336

336,337

338

338

369,370

374

374

165

165

87

337

613

49,587

88,93,95,360,431,432

58:3

473

370,445

592

179,181

326

46

326

367

210

45,46

46

235

235,2%

95,96

327

197,199

167

614

t1g

1'19++

~lgCu2

Mg(Gly Pro Pro Gly Pro Pro1 2(Cl0 4)2

t'lgNi 2

~'lgZn2

t"ln (! II ) Cl

MnD_ b

t'ln PO 4' H20

t'ln 5Ge3 -NH+

3 NH+

4

NH4Cl04

N2

(ND 4) l!( S04) 2

t~O;

NaCI

NaNi 2 (OH) (H20) 0'1004)2

NaOCI

Nb06

Nb2Te3011

NiC1 2 Ni(CI04)2

NiD

Ni_.Sn .:>

n-hexane

N.N-dimethyl formamide (DMFA)

(I

02-

°2 P2Se3 Pb

PbMo 6S8 PbO

Pb[SCO ,5(Ti O , 25TeO ,25) ]03

Ph 2P,C\=CH2) ,PPh2 P0 4 PtRh

426,427,42:::

586

427

S8E.

272

569

569

117

106.107

10~;

109

101

179,181

SI 5

143

272

580

579~580

97

50

572

575

427.428

175

101

95

167

577

577

99

Rb/FeTi)(P0 4):3

R.e0:j

Re06

R.hFe(CO)cC1Cdppe)

rh-FeF:j

SbF:j

~;C2°:3

Si

Si04 Sn

.J

Snt'lo 6 SS

-S0:jH

;::rCI Z

SrCoO:3_x SrF2 Sr 2Co 205

:3r 2YRIJ06

Ta06

Ta 20 5-Te02

Ta 2Te ~ 9

Te02 Te 20 5 Te 308

(Te 4012\, TiFe2 Ti02 (Tt-'lTt:F) 2Cl0 4

(T11TSF) Z:{

TTF

Tyr-Gly-Gly-Phe-lelJ

UC1 4 UGa2

UGa:j

U0 2

UPt:3

l.)2Te2D9

(.-.10:3 ,1/:3HZO

615

47

179,182

179 ~ 182

555

:337

47:3

577

29:3.370

166

167

i67.168

:373

97

.327,590

4:3.124

143.144

579

577

5:::0

580

577

:34, 85 ~ 169

169

145

432

146

146

616

~,j3Nb14044

YbMeo S._. 6 ,='

YIG

ZnC1 2

ZrKH( P04)2

ZrO._. "-

Zr en 01 . 862 ZrZn 2

Zr 28r 2H

ZS[1-5

144.145

167

367,368

97

143

99

174

92.93

143

196