Krane K.S. — Introductory nuclear physics :: Электронная библиотека попечительского совета мехмата МГУ

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Krane K.S. — Introductory nuclear physics

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Название: Introductory nuclear physics

Автор: Krane K.S.

Аннотация:

This comprehensive text provides an introduction to basic nuclear physics, including nuclear decays and reactions and nuclear structure, while covering the essential areas of basic research and practical applications. Its emphasis on phenomonology and the results of real experiments distinguish this from all other texts available. Discussions of theory are reinforced with examples which illustrate and apply the theoretical formulism, thus aiding students in their reading and analysis of current literature. The text is designed to provide a core of material for students with minimal background in mathematics or quantum theory and offers more sophisticated material in separate sections.

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Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1987

Количество страниц: 870

Добавлена в каталог: 20.11.2013

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Предметный указатель

Rutherford scattering, nuclear radius determination      57 402
Rutherford scattering, quantum effects      404—405
Rutherford scattering, scattered fraction      397
s process abundances      778 780
s process nucleosynthesis      776
Scattering length      93
Scattering length, neutron-proton scattering      95
Scattering length, singlet and triplet      94—95
Scattering, electron      45
Scattering, electron, by ${ }^{12}C$ and ${ }^{16}O$       46
Scattering, electron, by ${ }^{208}Pb$       47
Scattering, electron, charge distribution from      49
Scattering, electron, nuclear radius from      50
Scattering, neutron, from molecular $H_{2}$       93
Scattering, neutron-neutron      96 99
Scattering, neutron-neutron, effective range      99
Scattering, neutron-neutron, scattering length      99
Scattering, neutron-proton, differential cross section      109
Scattering, neutron-proton, differential cross section, effective range      95
Scattering, neutron-proton, differential cross section, scattering length      95
Scattering, neutron-proton, differential cross section, singlet vs. triplet      92
Scattering, neutron-proton, differential cross section, total cross section      92
Scattering, nucleon-nucleon      86
Scattering, nucleon-nucleon, charge symmetry      102
Scattering, nucleon-nucleon, differential cross section      90
Scattering, nucleon-nucleon, phase shift      88
Scattering, nucleon-nucleon, phase shifts (intermediate energy)      103
Scattering, nucleon-nucleon, polarized      104
Scattering, nucleon-nucleon, s-waver phase shift      88
Scattering, nucleon-nucleon, square-well wave functions      88
Scattering, nucleon-nucleon, total cross section      90—91
Scattering, proton-proton      96
Scattering, proton-proton, differential cross section      97
Scattering, proton-proton, effective range      99 102
Scattering, proton-proton, phase shifts (low energy)      99
Scattering, proton-proton, scattering length      99 102
Schmidt lines      126
Schroedinger equation      12
Schroedinger equation, one-dimensional, time independent      12
Schroedinger Equation, radial      27
Schroedinger equation, spherical coordinates      14
Schroedinger equation, three-dimensional, time independent      14
Scintillation detectors      207 211
Scintillation detectors, activated      211
Scintillation detectors, energy resolution      224
Scintillation detectors, inorganic      209
Scintillation detectors, organic      209
Scintillation detectors, time resolution      230
Secular equilibrium      170 171 172
Semiconductor detectors      213
Semiconductor detectors, band structure      214—215
Semiconductor detectors, depletion region      216
Semiconductor detectors, Ge      217
Semiconductor detectors, Ge, energy resolution      225
Semiconductor detectors, Ge, time resolution      230
Semiconductor detectors, Si      217
Semiconductor detectors, surface barrier      217
Semiconductor detectors, timing      217
Semiempirical mass formula      68 250
Separation energy, neutron      65
Separation energy, proton      65
Separation energy, two-nucleon, systematics and shell structure      119
Shell model      68 117—134
Shell model, deformed nuclei      151
Shell model, effect on alpha decay      250
Shell model, effect on beta decay      322
Shell model, effect on fission      494
Shell model, effect on nucleosynthesis      780
Shell model, electric quadrupole moments      127 129 130
Shell model, energy levels      123
Shell model, evidence for      117 119 120
Shell model, excited states      131
Shell model, independent particle assumption      131
Shell model, magnetic dipole moments      125 127 128
Shell model, many-particle      149
Shell model, potential      122
Shell model, spin-orbit interaction      124

Sievert (unit)      187
Silicon burning, stellar      771
Single-escape peak      222
Skin thickness      48
Specific $\gamma$ -ray constant      185 186
Specific activity      184 230
Spectrometer, magnetic      236
Spectroscopic notation      35 37 610
Spectrum, $\gamma$ -ray, comparison of Ge and Nal      223
Spectrum, $\gamma$ -ray, comparison of Ge and Nal, pulse-height      220
Spherical Bessel functions (table)      28
Spherical harmonics (graphs)      30
Spherical harmonics (table)      27
Spherical harmonics, parity      38
Spin      36
Spin, nuclear      70
Spin, nuclear, quantum number      603
Spin, odd-odd nuclei      604
Spin-lattice relaxation      630
Spin-orbit coupling, atomic      611
Spin-orbit interaction, in nucleon-nucleon scattering      104
Spin-orbit interaction, in shell model      124
Standard deviation      218
Standard deviation of repeated measurement      219
Stationary state      13 40 165
Statistics, counting      217
Step potential      16 17
Stopping power      194
Strangeness      686 717
Strangeness, conservation of      687
Superheavy elements      433
Superheavy elements, production in r process      779
Symmetry, exchange      39
Symmetry, reflection (parity)      37
Tau lepton      709
Telescope, counter      238
Thermonuclear weapons      553—557
Thermonuclear weapons, design      554
Thermonuclear weapons, effects      556
Thermonuclear weapons, strategic arsenals      556
Theta-tau puzzle      312
Threshold energy      382 594 714
Time resolution      229
Time resolution, Ge      230
Time resolution, scintillators      230
Time reversal      309
Time-of-flight method      239—240
Time-to-amplitude converter (TAC)      228
Tomography      803
Transient equilibrium      173
Transition probability      40
Transuranic elements      478
Tunneling      19
Upsilon resonance      738—740 744—745
Variance      218
Vibrational model      139
Wave function      12
Wave function, free particle      15
Weak bosons      286 703
Weak bosons, decay of      707
Weak bosons, discovery of      706—707
Weak bosons, exchange of      747
Weak bosons, mass      705
Weak interaction      285
Weak interaction coupling constant      705
Weak interaction, diagrams for      704
Weak interaction, neutral current      707
Weinberg angle      705
Weinberg angle in GUTs      750
Weinberg — Salam theory      704—705 707 see
Width of decaying stale      40 167
X particle      762
X particle, exchange in GUTs      749
X ray, K      51
X rays, medical imaging with      803—806
Zeeman effect      616—617
Zeeman effect, nuclear      336 370—371 see
Zweig's rule      729 735 739

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