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Greiner W., Maruhn J. — Nuclear models
Greiner W., Maruhn J. — Nuclear models



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Название: Nuclear models

Авторы: Greiner W., Maruhn J.

Аннотация:

The present work - and its two companion volumes - will certainly be among the most effective and widely used ... Can be warmly recommended to all nuclear physicists, student and professional alike, who have an interest in mechanisms of nuclear excitation...


Язык: en

Рубрика: Физика/Квантовая теория поля/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1996

Количество страниц: 375

Добавлена в каталог: 09.09.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
$\alpha$ decay      324 334
$\beta$ band      158 193
$\beta$ vibrations      300
$\gamma$ band      158 193 300
$\gamma$ vibrations      159 300
$\gamma$-unstable nuclei      168—170
$\omega$ meson      261
$\pi$ meson      212
$\rho$ meson      213 261
$\sigma$ meson      213 261
6j symbol      37
9j symbol      37
Adiabatic approximation      293 317 338
Alaga rules      161 193
Angular momentum operators      11—16 68—69 356
Angular momentum operators, body-fixed      138
Angular momentum operators, cartesian form      12
Angular momentum operators, collective      128—130
Angular momentum operators, exponential representation      14
Angular momentum operators, matrix representation      13
Angular momentum orbital      27
Angular momentum, coupling      25 31
Angular momentum, intrinsic      27
Annihilation operator      50
Anticommutation relations      52
Anticommutator      49
Antilinear operator      44
Antisymmetrization      220
Asymmetric fission      326 327
Asymmetric rotor      145—147 169
B(E2) values      134 161
Backbending      354
Bartlett potential      210
Basis expansion      254
BCS model      280—285 357
BCS model, cranking formula      341—344
BCS model, equation      288
BCS model, ground state      280—282 285 341
BCS phase      271
BE values      94
Bethe — Weizsaecker formula      99 104 106 200
BM values      94
Bogolyubov transformation      285—286
Bohr parameters      112
Bosons      213
Bosons, second quantization      50—51
Breathing mode      108
Cartesian coordinates      152
Casimir operators      69 72—73 183—187
Center of mass      108—110 350
Charge radius      133
Clebsch — Gordan coefficients      26—27 359—361
Cluster decay      330 331
Coefficient of fractional parentage      127
Cold valleys      327 334
Collective coordinates      106 116 317 337 338 341
Collective coordinates, symmetries      115—117
Collective core      293
Collective inertia      132
Collective mass parameters      123
Collective model, dynamic      206
Collective model, generalized      170—176
Collective model, geometric      106 196 293 302
Collective motion      96
Collective parameter      348
Collective Schroedinger equation      153
Collective state      347
Collective vibrations      294
Commutation relations      124
Compressibility      216
Condon — Shortley phase      19 29 63 271
Conjugate momentum      124 355
Contact potential      215
Coordinates, Cartesian      152
Coordinates, collective      106 116 317 337 338 341
Coordinates, collective, symmetries      115—117
Coordinates, curvilinear      151
Coordinates, degeneracy of      117
Coriolis force      298 354 355
Correlation function      219
Coulomb energy      100 105 117—120 200 202 318 357
Coulomb exchange energy      105
Coulomb gauge      75
Coulomb potential      99 244
Cranked Nilsson model      355—358
Cranking formula, BCS model      341—344
Cranking formula, independent particle model      340
Cranking model      338—344 352
Creation operator      50
Curvilinear coordinates      151 152
d bosons      178 193
de-Broglie wavelength      2
Decoupling parameter      301
Deformation      167 296
Deformation, axial      141 143 147 355
Deformation, dipole      108
Deformation, energy      318
Deformation, hexadecupole      108
Deformation, mean      132
Deformation, mean square      133
Deformation, multipole      108
Deformation, oblate      114 354
Deformation, octupole      108
Deformation, parameters      106 347
Deformation, prolate      114 354
Deformation, quadrupole      108 110—114 268 319
Deformation, triaxial      114 141 142 172
Deformed-shell model      248—260 294 296 297 320
Deformed-shell model, Hamiltonian      255
Density isomer      105
Density matrix      227—229
Density matrix, generalized      291
Density matrix, one-body      227 313
Density matrix, two-body      313
Dipole deformation      108
Dipole excitation strength      198
Dipole giant resonance      177 197 202
Dipole operator, magnetic      194
Dirac equation      264
Dirac sea      263
Dirac — Hartree theory      265
Dirac — Hartree — Fock approximation      265
Droplet model      100 320
Dynamic collective model      206
Dynamical symmetry      187
E2 transitions      132
Effective charges      97
Effective interactions      207 211 214—216
effective mass      266
El transitions      89 92
Electric hexadecupole operator      193
Electric monopole operator      192
Electric multipole      80—85 89 90
Electric multipole, operator      97
Electric quadrupole, operator      130 192
Electromagnetic field, quantization      75
Electromagnetic, excitation probabilities      304
Electromagnetic, transition probabilities      247
Elliots quantum number      185
Energy density formalism      103 231
Energy-level crossing      251 259—260 340 345
Euler angles      15 20 68 112 114 138
Even-even nuclei      1 100 106 233 246 254 269 277 290 293 303
Exchange operators      210
Exchange term      214 223 344
Extended schematic model      311
f bosons      178 195
Fano X coefficient      38
Fermi energy      101 244 284 290 294 302 304 309 316 321 340
Fermi momentum      102
Fermi's golden rule      85
Fermi-gas model      101—103
Fermions, matrix elements      58
Fermions, second quantization      52—53
Fissibility      319
Fission      317 335—337 353 354
Fission, asymmetric      326 327
Fission, barrier      318—320
Fission, isomer      320 335
Fission, lifetimes      324
Fission, mass distributions      328
Fission, superasymmetric      331
Fission, valleys      327
Fluid model      122
Fock space      48
Force, Coriolis      298 354 355
Force, Gogny      216
Force, Migdal      216
Force, pairing      224 246 272 280
Force, Skyrme      215—216 231—234 261 316 344
Force, spin-orbit      213 244 255 261 264 295 325
Force, tensor      210
g bosons      178 195
Galilei invariance      207
Gamov factor      328
Gap      269 343
gap equation      284
Gauss potential      215
Gaussian overlap approximation      350
Generalized collective model      170—176
Generator-coordinate method      346—353
Generators of a group      67
Geometric collective model      106 196 293 302
Giant resonances      90 98 197—206 304 313
Giant resonances, dipole      177 202
Giant resonances, quadrupole      206
Gneuss — Greiner potential      171
Gogny force      216
Goldhaber — Teller model      200—202
Gradient formula      80—81
Ground state band      158 300
Group, chains      72 182—184 187
Group, continuos      65
Group, element      65
Group, generators of a      67
Group, Lie      65
Group, representation      70
Group, rotation      16
Group, symmetry      7
Hamada — Johnston potential      213
Hamiltonian density      232
Hamiltonian kernel      346
harmonic oscillator      4 170 303 348—349
Harmonic oscillator, eigenfunctions      240—243
Harmonic oscillator, potential      239 320 323 324
Harmonic oscillator, symmetry group      127
Hartree — Fock      215 217—237 261 303 320
Hartree — Fock approximation      217
Hartree — Fock average potential      223
Hartree — Fock constrained      229—230
Hartree — Fock energy      225
Hartree — Fock equations      214 220—224 232 288 312
Hartree — Fock ground state      218 225 226 285 304 308 314
Hartree — Fock Hamiltonian      222
Hartree — Fock high-spin states      353
Hartree — Fock time-dependent (TDHF)      312—316 344—345
Hartree — Fock — Bogolyubov      286—292
Heavy nuclei      319
Heavy-ion reactions      317 337 344 353
Heisenberg picture      86
Heisenberg potential      210
Helmholtz equation      78—84 205
Hexadecupole, deformation      108 357
Hexadecupole, operator, electric      193
High-spin states      353—358
Hill — Wheeler — Griffin equation      346
Holes      61 276 285
Hulthen potential      215
IBA (interacting boson approximation)      127 178—197 302
IBA (interacting boson approximation), dynamical symmetries      187—192
IBA (interacting boson approximation), Hamiltonian      180 183 303
IBA (interacting boson approximation), pairing operator      182
IBA (interacting boson approximation), rotational limit      192
IBA (interacting boson approximation), symmetry group      183
IBA (interacting boson approximation), transition operators      192—193
IBA (interacting boson approximation), vibrational limit      191
IBA2      178 193 303
IBFM (interacting boson-fermion model)      196 302—303
IBM (interacting boson model)      178
Independent-particle model      219 237 263 340
Interaction, effective      207 211 214—216
Interaction, local      214
Interaction, nucleon-nucleon      207—214
Interaction, residual      224 270 280
Interaction, surface-delta      216
Interaction, three-body      207 215 230 236 316
Interaction, two-body      207 217
Intrinsic system      115 116 159
Intruder states      303
Invariance, Galilei      207
Invariance, isospin      208
Invariance, parity      209
Invariance, rotational      208
Invariance, time reversal      209 215
Invariance, translational      207
Irreducible representation      184
Irrotational flow      122 136 202 337
Isospin      39—41
Isospin invariance      208
Jacobi identity      68
K quantum number      141
kinetic energy      122—124 317 318 337 352 355
Kinetic energy, density      102 232
Kinetic energy, operator      152
Koopman's theorem      227
Kramers degeneracy      45 280 357
Lagrange multiplier      282 346
Lagrangian      4 124 262 317
Laplacian      152
Lie algebra      15 67 68 72
Lie group      65
Linear response      312—316
Lipkin — Nogami pairing model      280
Liquid-drop model      99 104 106 117 124 136 200 202 318—320 323 353 357
Local density approximation      103
Local interactions      214
Longitudinal field      81
Macroscopic-microscopic method      320—324 353
magic numbers      170 237 245 333
Magnetic dipole operator      194
magnetic moment      177
Magnetic multipole      80—85 89 90
Magneton      177
Majorana force      199
Majorana operator      195
Majorana potential      210
Many-particle systems      10
Mass, formulas      99—100
Mass, parameters      4 132 136 171 317 328 337—344 352
Mass, parameters, collective      123
Mass, transfer      345
Mean deformation      132
mean field      223
Mean square deformation      133
Mean-field approximation      263
Metric tensor      152
Migdal force      216
Minimal coupling      262
Ml transitions      89 92
Moment of inertia      138 144 148 161 341 343 354 355
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