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Bernard L. Cohen — Concepts of Nuclear Physics

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Название: Concepts of Nuclear Physics

Автор: Bernard L. Cohen

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1976

Количество страниц: 445

Добавлена в каталог: 19.11.2012

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Предметный указатель

Isobaric analog states, inelastic scattering via      369 370
Isobaric analog states, nuclear-structure studies with      366—369
Isobaric spin      45 136—143
Isobaric spin in beta decay      278—281
Isobaric spin operators $(T_{+}, T_{-})$       137—138 141—143 see
Isomerism, fission      267
Isomerism, gamma-ray      302—304
Isomerism, gamma-ray, in odd-A nuclei      302—304
Isomerism, gamma-ray, in odd-odd nuclei      302
K capture      see "Electron capture"
Knockout reactions      351—352
Kurie plot      272—273
Legendre polynomials, associated      25 107—108 148
Level density      118 340—345 see between
Liquid drop, binding energy of      163—165
Liquid drop, model of compound nucleus      311—313
Liquid drop, oscillations of      107—109
Liquid drop, vibrational energy of      114—115
m configuration      121—123
Magnetic instruments      223—230
Magnetic instruments, aberrations      224—226
Magnetic instruments, comparison with electric      223
Magnetic instruments, cyclotron      240—243
Magnetic instruments, focussing      226 228—230
Magnetic instruments, internal-conversion spectrograph      305 308
Magnetic instruments, quadrupole lens      228—230
Magnetic instruments, sector spectrograph      224—228
Magnetic instruments, sector spectrograph, $n=\frac{1}{2}$       226—228
Magnetic instruments, sector spectrograph, uniform-field      224—226
Magnetic moment of deuteron      40
Magnetic moment of neutron      8
Magnetic moment of nonsingle quasiparticle states      177—178
Magnetic moment of odd-A spheroidal nuclei      179
Magnetic moment of proton      8
Magnetic moment of rotational states in even-even nuclei      178—179
Magnetic moment of single quasiparticle states      174—177
Magnetic moment, effect of, in angular correlation      302
Magnetic moment, general      8
Magnetic moment, measurement of      9
Magnetic moment, table of      412—417
Magnetic multipole radiation      295—297
Majorana force      44 46 58
Mass spectroscopy      161
Masses of nuclei      1 160—162 418—423
Matrix element, transition, beta decay      278—282
Matrix element, transition, coulomb excitation      380—381
Matrix element, transition, definition of      269
Matrix element, transition, gamma-ray      290—292
Matrix element, transition, in nuclear reactions      344—345
Medical diagnostics, radioactivity in      384—386
Mesons, $\eta, \rho, \omega$       51 56
Mesons, cloud around nucleons      9
Mesons, effects in charge independence      60n.
Mesons, exchange currents      9n. 40n.
Mesons, one-boson exchange potential (OBEP)      56
Mesons, one-pion exchange potential (OPEP)      50
Mesons, production      55
Mesons, theory of nuclear force      47—51
Mobilities      218
Moderator      406
Moment of inertia      148 150—151
Moszkowski rates      296 297
Mottelson, B.R.      147
Natural parity states      373
Neutron capture      338—340
Neutron capture by thermal neutrons      339—340
Neutron capture in closed-shell nuclei      338—339
Neutron capture, nuclei with low cross section for      340
Neutron capture, ratio to scattering      338
Neutron star      400
Neutrons      187—188 191 269—276 284
Nilsson diagram      145—147
Nilsson, S.G.      147
Nonspherical nuclei      80—82 see
Normal modes      108
Nuclear force      7 32—62
Nuclear force, charge independence of      60 136—143
Nuclear force, Hamada — Johnston potential      56—58
Nuclear force, many-body      60—62
Nuclear force, one-boson exchange potential (OBEP)      56
Nuclear force, one-pion exchange potential (OPEP)      50
Nuclear force, range of      7 48 51
Nuclear force, Reid potentials      59—60
Nuclear force, repulsive core in      56
Nuclear force, soft-core potentials      59—60
Nuclear force, spin dependence      36
Nuclear force, spin-orbit term      47 53—54
Nuclear force, static      42—46
Nuclear force, symmetry requirements in      42—43
Nuclear force, three-body      61—62
Nuclear force, velocity-dependent      43 46—47
Nuclear force, velocity-dependent, complete expression for      43 46
Nuclear force, Yale potentials      60
nuclear matter      172—174
Nuclear matter, infinite      173—174
Nuclear matter, semi-infinite      174
Nuclear reactions      311—381
Nuclear reactions, cross sections      200
Nuclear reactions, products      201
Nuclear reactions, Q values of      161 199—200 see "Direct
Nucleon emission      193—195 252—260
Nucleon emission as groups of nucleons      193—195
Nucleon emission, angular-momentum barrier in      255—258
Nucleon emission, coulomb barrier in      258—260
Nucleon emission, energy requirement for      193
Nucleon emission, l=0 neutrons      252—255
Nucleosynthesis      see "Elements origin
Oblate spheroid      82 155—156
Occupation number from (d,p) reactions      361
Occupation number from (p,d) reactions      364
Occupation number in (p,t) reactions      371
Occupation number in alpha decay      262
Occupation number in beta decay      280—281
Occupation number in even-even nuclei      102—105
Occupation number in odd-A nuclei      128—130
Occupation number, definition of      102
Odd-A nuclei      126—135
Odd-A nuclei, spheroidal      156—157
One-boson exchange potential (OBEP)      56
One-pion exchange potential (OPEP)      50
Optical model      316—324 356 359
Orbit model      26
Oscillator potential      73—75 79
Overlap integral      261 278
Pairing      88—94 96 99—101 132 140 147
Pairing between neutron and proton      100—101
Pairing theory      105 130 see "Quasiparticle
Pairing, effect on binding energy      169—170
Parity      27—29 43
Parity conservation in collisions      85
Parity of vibrational states      113 153
Parity, determination from beta decay      283—284
Parity, determination from direct reactions      360—362 364 369—373
Parity, determination from gamma decay      298—299
Parity, determination from gamma decay, polarization measurements      300—301
Parity, determination from internal conversion      309
Parity, determination from isobaric analog-state studies      367 368
Particle identification      222—223 236
Pauli exclusion principle in compound nucleus      315 316
Pauli exclusion principle in isobaric spin      143
Pauli exclusion principle in shell-theory potential depth      66
Pauli exclusion principle in two-body system      39—40
Pauli exclusion principle, explanation of      36—40
Perturbation theory      94—96
Phase shift      52
Phonons      109—116 122—123 289—290
photographic emulsion      211 222
Photomultiplier      212 213
Photonuclear reactions      346—348
Pickup reactions      see "Stripping and pickup reactions"

Plane-wave Born approximation (PWBA)      355—358
Plunger method      239
Potential scattering      329—331
Prolate spheroid      82 155—156
Proportional counter      217
Proton-proton cycle      393—394
Pulsars      400
Pulse rise time of charge collection detectors      216
Pulse rise time of scintillation detectors      213
Pulse rise time of semiconductor detectors      218
Pulse-height analysis      220
Pulse-shape discrimination      236—237
Q value      161 199—200
Quadrupole lens      228—230
Quadrupole moment, electric, definition of      9—11
Quadrupole moment, electric, of deuteron      40
Quadrupole moment, electric, of single-hole states      180
Quadrupole moment, electric, of single-particle states      180
Quadrupole moment, electric, of spheroidal nuclei      181—183
Quadrupole moment, electric, of vibrational states      156 183 381
Quadrupole moment, electric, table of      412—417
Quadrupole moment, electric, theory of      179—183
Quadrupole radiation, electric      292—295
Quantum numbers, $\Omega$       144—146
Quantum numbers, good, in various cases      144
Quantum numbers, isobaric spin $(T, T_{z})$       138—140
Quantum numbers, K      152
Quantum numbers, n      15 21 23
Quantum numbers, orbital angular momentum (l)      19 24
Quantum numbers, orbital angular momentum (l), z component of $(m_{l})$       24
Quantum numbers, total angular momentum (J)      72
Quantum numbers, total angular momentum (j), z component of (m)      72
Quasi-particle number      101—102 see "Single-quasi-particle "Two-quasi-particle
Radioactivity      195—196
Radioactivity, applications of      383—387
Radioactivity, decay properties      196
Radioactivity, identification with      243—244
Radioactivity, production of      198—199
Radiochemistry      243—244
Radius, nuclear      4 66 257
Range of particles      209 210
Rayleigh, Lord      107
Reaction rate, thermonuclear      389—392
Reactor, nuclear, fission      337 406—407
Reactor, nuclear, fission, breeder      407
Reactor, nuclear, thermonuclear      403—405
Red giant stars      396 403
Reduced width as overlap integral      261
Reduced width in strength function      333—334
Reduced width, alpha-particle emission      260—263
Reduced width, alternate definitions      327n. 333
Reduced width, fission      263
Reduced width, nucleon emission      254 255
Reduced width, relation to resonance widths      326 333
Reflection of waves      247—250
Reid potentials      59—60
Residual interactions      84 99 132 136 see
Resonance scattering      329—331
Resonances      325—336
Rotational states      147—151
Rotational states in even-even nuclei      152—153
Rotational states in odd-A nuclei      156 157
Rotational states, coulomb excitation of      381
Rotational states, excitation in direct reactions      378
Rotational states, gamma-ray transitions between      295
Rotational states, magnetic moments of      178—179
Rutherford scattering      1 33
Scattering length      52
Scattering of electrons      2—3 5
Scattering, inelastic      199 375—380
Scattering, nucleon-nucleon      33 51—55
Scattering, nucleon-nucleon, double      53—55
Scattering, Rutherford      1 33
Schmidt lines      176—179
Schroedinger equation      25 44 91
Scintillation detectors      212—214
Scintillation detectors, rise time of      213
Scintillators, inorganic      214
Scintillators, NaI(T1)      214
Scintillators, organic      214 230
Scintillators, plastic      214
Selection rules, beta-decay      276—277 282—284
Selection rules, gamma-ray      296—299
Semi-empirical mass formula, beta-decay systematics from      189
Semi-empirical mass formula, complete      170—171
Semi-empirical mass formula, coulomb term      165—166
Semi-empirical mass formula, pairing term      169—170
Semi-empirical mass formula, surface term      164—165 174
Semi-empirical mass formula, symmetry term      166—169
Semi-empirical mass formula, volume term      163—164 173—174
Semiconductor detector      215 218—219
Semiconductor detector rise time      218
Semiconductor detector, Ge(Li)      218—219
Semiconductor detector, silicon      218
Separation energy, nucleon      76—78
Shape of nucleus      80—82 154—156 378—379
Shell-theory potential      64—82
Shell-theory potential, depth      66 71 173
Shell-theory potential, radius      66
Shell-theory potential, shape      66
Shell-theory potential, spin dependence      68
Shell-theory potential, spin-orbit force in      68—70
Shell-theory potential, surface thickness      66
Shell-theory potential, symmetry-energy dependence      66
Shell-theory potential, velocity-dependent forces, effect on      68—72
shells      73—75
Silicon burning      398—399
Single-hole nuclei      86 87 128
Single-hole nuclei, magnetic moment of      174
Single-hole nuclei, orbit energies from state of      364—365
Single-particle nuclei      76 86 87 128
Single-particle nuclei, magnetic moment of      174—176
Single-particle nuclei, orbit energies from states of      363 365
Single-quasi-particle (SQP) states      126—134
Single-quasi-particle (SQP) states from (d,p) reactions      361—364
Single-quasi-particle (SQP) states in spheroidal nuclei      156
Single-quasi-particle (SQP) states, energies of      126—130
Single-quasi-particle (SQP) states, magnetic moment of      174—175 177—178
Single-quasi-particle (SQP) states, wave function of      128
Size of nucleus      1 4 173 see nuclear"
Solid-state detector      see "Semiconductor detector"
Space exchange      44 58
Spallation      199 344
Spark chamber      211—212
Spectrograph, magnetic      see "Magnetic instruments"
Spectroscopic factor ( $\mathcal{S}$ ) in one-nucleon transfer      356 359—364 367—368
Spectroscopic factor ( $\mathcal{S}$ ) in two-nucleon transfer      371
Spectroscopic notation      20 87
Spheroidal nuclei      80—82 143—157
Spheroidal nuclei, even-even      147—156
Spheroidal nuclei, even-even, ground-state rotational band in      147—150
Spheroidal nuclei, even-even, noncollective states in      153—154
Spheroidal nuclei, even-even, vibrational states of      151—156
Spheroidal nuclei, oblate      146—147
Spheroidal nuclei, odd-A      156—157
Spheroidal nuclei, prolate      146—147
Spheroidal nuclei, quadrupole moments of      181—183
Spheroidal nuclei, shell-theory potential in      143—147
Spin      27
Spin dependence in shell-theory potential      68
Spin exchange      44—45
Spin in beta decay      276
Spin in nucleon-nucleon double scattering      54
Spin of deuteron      36
Spin polarization      54—55
Spin wave function, in two-nucleon system      38 see of
Spin-orbit interaction in nucleon-nucleon force      47 53—54
Spin-orbit interaction in shell-theory potential      68—70 72 73
Spin-orbit interaction, level splitting by      73
Spontaneous fission      265

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