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Griffits D. — Introduction to elementary particles
Griffits D. — Introduction to elementary particles



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Íàçâàíèå: Introduction to elementary particles

Àâòîð: Griffits D.

Àííîòàöèÿ:

This is the first quantitative treatment of elementary particle theory that is accessible to undergraduates. Using a lively, informal writing style, the author strikes a balance between quantitative rigor and intuitive understanding. The first chapter provides a detailed historical introduction to


ßçûê: en

Ðóáðèêà: Ôèçèêà/Êâàíòîâàÿ òåîðèÿ ïîëÿ/

Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö

ed2k: ed2k stats

Ãîä èçäàíèÿ: 1987

Êîëè÷åñòâî ñòðàíèö: 397

Äîáàâëåíà â êàòàëîã: 09.09.2005

Îïåðàöèè: Ïîëîæèòü íà ïîëêó | Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
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Ïðåäìåòíûé óêàçàòåëü
$G_{F}$      (see “Fermi constant”)
$J/\psi$      (see “$\psi$ meson”)
$\alpha$      (see “Fine structure constant”)
$\alpha$ particle      (see “Particles”)
$\alpha_{s}$      61 77 165 27 24
$\alpha_{w}$      76 32 3
$\beta$ particle      (see “Electron”)
$\Delta$      31 34 69 120
$\eta$ meson      38—39 170
$\eta^{'}$ meson      38—39 170 172 188
$\Lambda$ (scale parameter in QCD)      295
$\Lambda$ baryon      29 32—35 70
$\lambda$ matrices      (see Gell-Mann matrices)
$\omega$      170 172
$\Omega^{-}$      34—36 52—53 70
$\phi$ meson      75 170 172 262—263
$\psi$ meson      42 44 75 144 262 263
$\rho$ meson      170 172
$\tau$ lepton      44 47 261
$\tau$ number      47 (see also “Conservation laws”)
$\tau-\theta$ puzzle      128
$\theta_{C}$      (see “Cabibbo angle”)
$\theta_{W}$      (see “Weak mixing angle”)
$\Upsilon$ meson      44 79 144 167—169 262—263
$\Xi$      31 33 35 78 182—184
A      (see “Conservation laws” “Baryon
ABC theory      21 213
Abelian      16 354
Adjoint      223 228
Allowed energies      148
Amplitude      11 18 14—15 2—21 2 231
Anderson, C. D.      18 2 2
Angular momentum, addition      1—113
Angular momentum, eigenfunctions      (see “Spherical harmonics”)
Angular momentum, eigenvalues      146
Angular momentum, matrices      (see “Spin matrices”)
Angular momentum, orbital      17—1 153 252
Angular momentum, spin      13 17—1 116 252
Annihilation      (see “Pair annihilation”)
Anomalous magnetic moment, electron      17 153 156 232
Anomalous magnetic moment, proton      156—157
Anticommutator      13
Antielectron      (see “Positron”)
Antineutrino      24 26—28 124—125
Antineutron      21
Antiparticle      3 18—22 36—37 135 217 22—221
Antiproton      21 3—31 6—7
Antisymmetric state      112 118 174—18
Antisymmetric tensor      1 224
Antisymmetrization      231
Associated Laguerre polynomial      14
Associated Legendre function      147
Associated production      32—33
asymptotic freedom      62—64 164—165 2 27 22—25
Axial vector      126—127 224 32—33 324
B      (see “Beauty”)
B meson      44 7 167
Bare      (see “Charge” “Coupling “Mass”)
Barn      2
Baryon      17 2 34 36
Baryon, decuplet      34—36 38 111 17
Baryon, magnetic moment      18—182
Baryon, mass      182—184
Baryon, number      (see “Conservation laws”)
Baryon, octet      33 3 111 17—18
Beautiful baryon      44
Beautiful meson      44
Beauty      44 47
Beta decay      22—24 27 46 52 56 31 3—314
Bethe, H. A.      155 15 28
Bevatron      21 6
Bhabha scattering      57—5 78 232 234
Bilinear covariants      222—225
Bispinor      (see “Dirac spinor”)
Bjorken scaling      26—273 24—25
Bjorken, J. D.      42 26
Bohr energies      148 186
Bohr magneton      153
Bohr model      13
Bohr radius      14
Bohr theory      14—151
Bohr, N.      13 23 14 151
Boson      1 175
Bottom      (see “Beauty”)
Bottomonium      143—144 167—168
Bound state      2 3 42 52 143—188
Branching ratio      72 1 316
Breit frame      12
Brick wall frame      (see “Breit frame”)
Broken symmetry      336 (see also “Gauge invariance”)
Brookhaven      32 42 132
Bubble chamber      35
C      (see “Charm” “Charge conjugation”)
c quark      42—44 122
Cabibbo angle      31 314 317—321
Cabibbo theory      317—322
Cabibbo, N.      7 317
Callan — Gross relation      27—273
Casimir’s trick      236—238 253
Center of momentum      6—8
Central potential      146
Centrifugal barrier      147 15
CERN      6 4 44 46 67 323—325 327
Chadwick, J.      14
Charge, bare      63 24
Charge, conjugation      13 128—13 134—135 162 222 252
Charge, conservation      (see “Conservation laws”)
Charge, effective      63 24
Charge, electric      47 6 118
Charge, igenvector      114
Charge, independence      117
Charge, renormalization      246—25
Charge, weak      65
Charged weak interactions      301—304
Charm      42—44 47 165
Charmed baryons      43—45
Charmed mesons      43—44
Charmonium      44 143—144 162—169
Chiral states      330—333
Chromodynamics      55—56 355—357
Clebsch-Gordan coefficients      111—112
Cloud chamber      7 20
cm      (see “Center of momentum”)
Coleman-Glashow formula      53
Colliding beams      6 46 98—99
Collisions      9193
COLOR      41—42 60—61 64 74 261—262 279
Color, factor      164 285—289 291
Color, octet      280 285—286
Color, sextet      288
Color, singlet      178 188 280—281 284—286 289 291 298
Color, SU(3)      178 281 355—356
Color, triplet      287—288
Colorless particle      41 64—65 280—281 singlet”)
Commutator      139
Completeness      217 221 229 237
Compton, A. H.      15
Compton, A. H., scattering      15—16 58 78 102 232 235—236
Compton, A. H., wavelength      15 63
confinement      40 42 64—65 286 289 295—296
Conservation laws      72—76 79 103 105
Conservation laws, angular momentum      105
Conservation laws, baryon number      29—31 72—74 77 118
Conservation laws, charge      32 72—73 105 128 226 313
Conservation laws, color      74
Conservation laws, electron number      27 47 74 317
Conservation laws, energy      51—52 60 91—92 105 203 230
Conservation laws, flavor      67 74—75
Conservation laws, isospin      117—120
Conservation laws, lepton number      26—27 31
Conservation laws, mass      91—92
Conservation laws, momentum      91—92 105 203 230
Conservation laws, muon number      27 74 317
Conservation laws, parity      125—128
Conservation laws, quark number      74
Conservation laws, strangeness      32—34 74—75 118
Conservation laws, tau number      47 74 317
Conserved current      313
Continuity equation      226 347
Contraction of indices      87
Contraction theorems      239
Contravariant four-vector      85 214
Cosmic rays      4 18—20 29 100
Coulomb force      57
Coulomb gauge      227—229 281 302
Coulomb potential      148 164 194 285 287
Coupling constant      61 202
Coupling constant, bare      249
Coupling constant, dimensions      230
Coupling constant, effective      63 209—210
Coupling constant, electromagnetic      62—63 230 336 359
Coupling constant, renormalized      247—248 292
Coupling constant, running      62 77 209—210 249 292 294—295
Coupling constant, strong      61 77 279 359
Coupling constant, weak      77 302 309 324 335—337
Covariant derivative      349 352 356 365
Covariant four-vector      85—86 214 251
Cowan, C. L      26
CP violation      130—134 321
Cronin, J. W      132—133 135
Cross section      119 189—194 378 for
Cross section (Continued), pair annihilation (QCD)      292
Cross section (Continued), pair annihilation (QED)      164 187 245 261
Cross section (Continued), pion-nucleon      119—120 140
Cross section (Continued), Rutherford      194 241
Cross section (Continued), two-body      199—201
Cross section, $A+A \rightarrow B+B$      204—206
Cross section, hard sphere      193
Cross section, Mott      241
Cross section, nucleon-nucleon      119
Crossing symmetry      21—22 58
Current charged, color      357
Current charged, conserved      226 313
Current charged, electromagnetic      225—227 333 335—336 349
Current charged, weak      332
Current charged, weak hypercharge      334—335
Current charged, weak isospin      334—335
Cutoff      208 247
CVC hypothesis      313
Cyclotron formula      7
D meson      44 76 79 166
d quark      37 122
Davis, R      26
de Broglie wavelength      6
Decay rate      189—190 195—198 377
Decay rate, kaon      318
Decay rate, muon      304—309
Decay rate, neutron      311—312
Decay rate, pion      316
Decay rate, positronium      164 245—246
Decay rate, quarkonium      292
Decay rate, two-body      197—198
Decays      2 3 72—76 93—94 241
Decuplet      (see “Baryon decuplet”)
Deep inelastic scattering      40 48 257—258 266—273
Degeneracy      149
Delbruck scattering      78
Delta function      (see “Dirac delta function”)
Density of states      194 (see also “Phase space”)
DESY      67
Detailed balance      21—22 134
Detectors      7
Deuteron      118 143
Differential cross section      192 200 245
Differential decay rate      195
Dimensions amplitudes      200—201
Dimensions amplitudes, coupling constants      202 230
Dimensions amplitudes, fields      347
Dipole function      267
Dirac delta function      157 195—196 203 230—231
Dirac equation      18 213—222
Dirac equation, momentum space      218 228
Dirac matrices      215 380
Dirac sea      18—21 217
Dirac spinor      216 226
Dirac, P. A. M      18 208—209 214—215
Disconnected diagram      207
Discrete symmetry      103
Dot product      86
Down quark      (see “d quark”)
Downness      47
Drell — Yan process      295
Dresden, M      201
d’Alembertian      227
Effective charge      (see “Charge”)
effective mass      (see “Mass”)
Eigenfunction      146
Eigenvalue      114 146
Eigenvector      114
Eight-baryon problem      121
Eightfold way      33—39 107 121—122
Einstein summation convention      64
Einstein, A      14—15 76
Elastic collision      91—92
electric dipole moment      135
Electric form factor      267
Electrodynamics      55—56 225—228
Electromagnetic current      (see “Current”)
Electromagnetic decay      241
electromagnetic field      225
Electromagnetic force      55—56
Electromagnetic potential      226
Electron      4 11—12 230
Electron number      (see “Conservation laws”)
Electron-deuteron scattering      278
Electron-muon scattering      232—233 238—240
Electron-neutron scattering      276 278
Electron-positron annihilation      (see “Pair annihilation”)
Electron-positron scattering, elastic      (see “Bhabha”)
Electron-positron scattering, scattering inelastic      257—262 327—330
Electron-proton scattering, elastic      262—267 269
Electron-proton scattering, inelastic      266—269
Electroweak force      3 46 56 322 330—337
Electroweak interference      326 330
Elementary particles      1
Elementary particles, kinetic      90—92 152
Elementary particles, operator      145
Elementary particles, relativistic      87—91 152
Elementary particles, rest      90
Energy-momentum Four-vector      89
Euler — Lagrange equation      344—345
Exchange of particles      16 57 61
Exclusion principle      (see “Pauli”)
Exotic atom      159
Exotic particle      53
expectation value      151—152 186
External line      58—60 229—231 282—283
F meson      44
Faddeev-Popov ghost      282
Family      (see “Generation”)
Fermi constant $(G_{F})$      307—309
Fermi theory of beta decay      23—24 44 46 56 307—308
Fermi, E      23 56 120
Fermion      109 175
Fermi’s Golden Rule      (see “Golden Rule”)
Feynman calculus      59 189—212 361—362
Feynman diagram      55 57 59 189 194 201 203
Feynman rules      3 59 194 213 357—360 381—384
Feynman rules, ABC theory      201—204
Feynman rules, GWS      336—337
1 2 3
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