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Close F.E. — An introduction to quarks and partons

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Название: An introduction to quarks and partons

Автор: Close F.E.

Аннотация:

This book is excellent for upper level undergraduates or lower level physics graduate students. It is a useful resource for understanding the basic concept of the standard model. For some sections a knowledge of matrix mathematics is assumed, however, a great deal of the book can be understood even without this background.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1979

Количество страниц: 481

Добавлена в каталог: 04.12.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Quark, spin      see also “ $\sigma_{S} / \sigma_{T}$ ”
Quark, spin, $eq \rightarrow eq$       186—189
Quark, spin, $e^{+}e^{-}$ annihilation      286 291
Quark, spin, deep inelastic scattering      185 188
Quark, spin, SU(2)      43
Quark, spin, SU(6)      54—62
Quark, substructure      12—14 171 219—221
Quark, substructure, dressing in QCD      229—230
Quark, substructure, nuclear analogue      223—226
Quark, transverse momenta, $g_{A}/g_V$       115—117 301
Quark, transverse momenta, $SU(6)_{W} \times O(2)_{L,x}$ , breaking      101 103 118
Quark, transverse momenta, $\sigma_{S} / \sigma_{T}$       222
Quark, transverse momenta, configuration mixing,       103 115—118 143—144
Quark, transverse momenta, confinement      115 419—420
Quark, transverse momenta, cut-off in parton model      216 308
Quark, transverse momenta, large       308
Quark, transverse momenta, polarised electroproduction      297—298 301
Quasi-elastic peak      193—195 223—226
Quasi-elastic peak, constituent charges      225—226 230—231 235—236
Quasi-elastic peak, nucleus      224
R      see “Electron-positron annihilation “Weinberg
Radial excitations      86 358
Radial excitations, decays in $^{3}P_0$ model      123
Radiative transitions, $\eta$ — $\eta'$ mixing      69—70
Radiative transitions, baryons      126—168
Radiative transitions, colour      166
Radiative transitions, explicit models      126—168
Radiative transitions, mesons      64—70 166 348 364—370
Radiative width, helicity amplitudes      133
Raising and lowering operators      24
Regge behaviour      248 306
Regular representation      18 28—30 52—53
Relativistic quark models      147—155 157 “Lipes “Massive
Renormalisability, quark charges      443
Resonance photoexcitation      130—142 146 149—157
Reverse angle      478
Reverse angle, $\rho\rightarrow\pi\gamma$ , comparison with $\omega\rightarrow\pi\gamma$       67
Right-handed quarks      258 333 445
S*(990)      see also “Scalar mesons”
S*(990), $qq\bar{q}\bar{q}$ state      431—432 434
S*(990), in $\psi$ decay      352—353
Scalar mesons, $qq\bar{q}\bar{q}$       430—432 435—436 438—440
Scalar mesons, $q\bar{q}$       86—89 430—431
Scalar mesons, $\chi$       358—360 364—367
Scale invariance      see “Scaling”
Scaling      4 12 171 189—197 223—226 251—253 312
Scaling violation, charm threshold      258—259 278—280
Scaling violation, data      263—264
Scaling violation, Drell — Yan      322
Scaling violation, field theory      196—198 255
Scaling violation, form factor      192—195 223—226 251—254
Scaling violation, Kogut — Susskind model      196—198
Scaling violation, quark-gluon field theory      12—14 219—221
Scaling violation, resolution      12—14 192—198 219—221 223—226
Scaling violation, target size      192—195 223—226 251—254 313
Scaling, $e^{+}e^{-}$ annihilation      250—255
Scaling, fragmentation      266—267 279—280 282
Scaling, kinematic conditions      224 226
Scaling, nuclear analogue      223—226
Scaling, relation to pointlike      191—197 223—226 251—253 312—313
Sea quarks      196—197 227—246
Sea quarks, distribution      228 246—248 321
Sea quarks, Drell — Yan      321
Sea quarks, duality      227
Sea quarks, fragmentation      268 270—275
Sea quarks, large x      248—250
Sea quarks, momentum      243—244
Sea quarks, polarisation      300—301 305
Sea quarks, small x      229 232—233 242 247—248
Sea quarks, valence dressing      229—230
Sea quarks, y distributions      240—243
Selection rules, Moorhouse      130—131
Selection rules, neutron target      134 142
Single quark interaction, $\psi'\rightarrow\gamma\chi$       369—370
Single quark interaction, Melosh transformation      113—115 369—370
Single quark interaction, photoabsorption      126 143
Singlet      see also “Colour singlet”
Singlet, octet mixing      69—70 78 405—409
Singlet, representations      46 50 52—53 55—56
Six quark models      443—444 447—448
Small distances, $\alpha_{eff}$ in QCD      11
SO(10)      447
Spectroscopy      5—12 17—21 54—61 70—73 77—92 “Charm” “Charmonium” “Mesons”)
Spectroscopy, baryons and colour      338—339
Sphericity      292
Spin      see also “Quark spin”
Spin of $\chi$       349 364—368
Spin, recoupling      438—440
Spin-flip, matrix elements      127—131
Spin-flip, Moorhouse selection      130
Spin-flip, photoproduction      139
Spin-orbit interaction, L>0 mass splittings      88—92 386
Spin-orbit interaction, neutron target selection rule      142
Spin-orbit interaction, photoproduction      134 137 142 147
Spinor, boosts      96—97 105—106 117—119 143—144 301
Spinor, Dirac and Pauli      96 103 115—119 301 411—413 419
Spinor, in cavity      411—413
Spinor, normalisation      97 172
Spurious excitations      82
Square well      420

Strange quark      5 38 “GIM “Mass “Sea
Strange quark, $K^{*}\rightarrowK\gamma$       64 68
Strange quark, charm production      255—256 332—333
Strange quark, effective mass      392 395 421
Strange quark, in bag      414 425
Strange quark, in sea      196 232—233
Strange quark, magnetic moment      129 391—399
Strange quark, momentum      233—234
Strange quark, vector meson masses (ideal mix)      72—73
Strangeness      18—19 (see also “Mass splittings” “Strange
Strong interactions      18 20
Strong interactions, field theory      see “Quantum chromodynamics”
Structure constants      23 32
Structure functions      179—198 (see also “Partons” “Fragmentation
Structure functions, current absorption cross-sections      181 238
Structure functions, electromagnetic interactions      226—233
Structure functions, fixed x, W behaviour      182—183
Structure functions, neutrinos      231—234 236—238
Structure functions, parton model      187 215
Structure functions, polarised      295—297
Structure functions, scaling      183 187
Structure functions, scaling, violation      191—198
Structure functions, sum rules      234—236
SU(2)      21—30 (see also “Quantum flavour dynamics” “Pauli “ “Weak”)
SU(2) as subgroup      30—31 37
SU(2), isospin breaking      25
SU(2), representations      21 40—44
SU(3)      30—36 (see also “Casimir operators” “Colour” “Quantum
SU(3), $\lambda$ matrices      30
SU(3), representations      44—46
SU(3), subgroups of SU(4)      36—37 380 382—383
SU(4)      36—37 51 377—381
SU(5)      446—448
SU(6)      54—62 94
Sum rules in quark-parton model      234—236 276—277 298—301
Superallowed decays      431—432 (see also “Zweig rule”)
Symmetric quark model      80—86 159—160
Symmetric quark model, colour, and statistics      159—160 338—339
Symmetric states      see also “Symmetric quark model”)
Symmetric states in O(3)      83
Symmetric states in SU(4)      379—380
Symmetric states in SU(6)      56 60—61
Symmetric states, qq      45
Symmetric states, qqq      40 42 46
Symmetric states, Young diagrams for SU(N)      48
Symmetric wavefunction, matrix elements, calculation of      62
Symmetries      17—37 (see also “”SU(N) listings)
Symmetry breaking      64 68—69 77 129 “Strangeness” “Strange
t quark      444 447—448
Tensor interaction      89 91
Timelike excitations      148
Transverse momentum      see “Large $p_T$

” “Quark
Triplet of SU(3)      20
Twisted diagrams      74—76 (see also “Zweig rule”)
U(12)      105
U-spin      127 394
Unified field theories      see “Grand unification” “ “Weinberg
Unitary symmetry      21
Up quark      5 6 “ “Valence
Up quark, dominance, as $x\rightarrow1$       227 245 248 275 302 305
Up quark, dominance, in ep and $e^{+}e^{-}$       281
Up quark, Drell — Yan, contribution to      324—326
Up quark, effective mass      392
Up quark, in MIT bag      411—428
Up quark, momentum distribution      246—250
Up quark, polarisation of      298 302 305
Upsilon ( $\Upsilon$ )      444
V-spin      31
Vacuum polarisation      10 11 218 229 230 340
Valence quarks      196—197 227—250
Valence quarks, $x\rightarrow1$ , u dominance      228—229 245 326
Valence quarks, distribution      228 246—248
Valence quarks, Drell — Yan      324—326
Valence quarks, duality      227
Valence quarks, fragmentation      270—275 305
Valence quarks, large x      229 242 247—250
Valence quarks, momentum      243—244
Valence quarks, number in proton      243—245
Valence quarks, sum rule      235
Valence quarks, y distributions      240—243
Vector mesons      19
Vector mesons, glueballs      428
Vector mesons, leptonic width      251 373—375
Vector mesons, radiative decays      64—70 354
W boson      237 332—336 446
Weak-hypercharge      262 333—334 445
Weak-isospin      261—262 333—334 445
Weight diagrams      45 164 434
Weinbeig — Salam model      262—263 (see also “ $SU(2) \times U(1)$ ”)
Weinberg angle      262—263 334—335 445
y distributions      240—243 256 260
Yang — Landau theorem      359
Young diagrams      47—53 60 446
Zweig rule      see also “Charmonium”
Zweig rule, $qq\bar{q}\bar{q}$ decays      431—432
Zweig rule, $\phi$ decays      73—75 407
Zweig rule, disconnected diagrams      74—76 349—353 431—432
Zweig rule, dual unitarisation      75
Zweig rule, gluons      75—76
Zweig rule, nonplanar diagrams      75—76

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