Boehm F., Vogel P. — Physics of massive neutrinos :: Электронная библиотека попечительского совета мехмата МГУ

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Boehm F., Vogel P. — Physics of massive neutrinos

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Название: Physics of massive neutrinos

Авторы: Boehm F., Vogel P.

Аннотация:

Neutrinos play a decisive part in nuclear and elementary particle physics, as well as in astrophysics and cosmology. Because they interact so weakly with matter, some of their basic properties, such as mass charge conjugation symmetry, are largely unknown. These subjects are considered in detail by authors, who also discuss such topics as neutrino mixing, neutrino decay, neutrino oscillations, double beta decay and related ideas. Physical concepts are stressed, and both theoretical methods and experimental techniques are presented. This second edition contains an expanded coverage of new experimental results and recent theoretical advances. In the intervening years since the first edition, many then unresolved problems such as tritium beta decay and reactor neutrino oscillations have been clarified. This edition also gives expanded coverage of solar and supernova neutrinos.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 2-nd edition

Год издания: 1992

Количество страниц: 259

Добавлена в каталог: 27.01.2014

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

Предметный указатель

invariance      5 13 15 82 98 182 209 213
phase      7 82 98 213
symmetry      7 10 82 96 98ff
theorem      4 10 37 40
parity      45
meson decay      68
chain in the sun      135
interaction      63
boson      2 12 82 97 147 174
${}^{12}C$ excitation by neutrinos      56
${}^{35}S$ experiment      72
${}^{37}Cl$ detector      136ff 152 155
${}^{7}Li$ excitation      56
${}^{8}B$ decay      130 132ff 137 156
7Be electron capture      56 133ff
Age of universe      219 222
Appearance experiments      91 112ff
Axial vector coupling constant      45 128 160
Axial vector current      45 50 128
Background radiation      221
Baksan laboratory      144 195 202 227
Baryon number      17
Beam dump      80 113 121ff
BEBC collaboration      81 115ff
Bergkvist’s experiment      24ff
Brookhaven National Laboratory (BNL)      113
Bugey experiment      99ff
Cabbibo angle      16 22 46 128 166
CDHS collaboration      120ff
CERN experiments      80 115ff 120ff
Charge conjugation      4ff 10 16 45 96 212
CHARM collaboration      80 116ff
Charmed particles      19 80 121
Chiral projections      1ff 15
Chirality      4 6 9 96
Closure approximation      176 182ff
CNO cycle      135
Coherence length      93ff
Coherent scattering of neutrinos      55 57ff
Conserved vector current (CVC)      45ff 52
Cosmic ray muons      108 194ff
Cosmological constant      220
Cosmological principle      217
Coulomb energy      161
Critical density      217ff
Current, axial      44 50 126
Current, charged      43 50 126
Current, dark matter      219
Current, electromagnetic      45 50
Current, hadronic      44 46 54 126
Current, left-handed      97 178
Current, lepton      12 46 166
Current, neutral      2 49ff 126ff 146
Current, quark      50 178
Current, right-handed      83 98 178ff 208
Current, second class      45
Current, vector      44 50
Deep inelastic scattering      44 51
Delta isobars      177 187
DESY experiments      42
Deuteron disintegration      126ff
Dipole formula      45
Dipole moment      5 234
Dirac mass term      8ff 16 96
Dirac neutrino      4 11 79 82 88 208 211
Dirac particle      9 13
Disappearance experiments      92. 97ff 99
Double beta decay, $0\nu$ mode      173ff 190ff 208
Double beta decay, $2\nu$ mode      161ff 165ff 188ff
Double beta decay, geochemical experiments      206ff
Double beta decay, majoron emission      178
Double beta decay, neutrino mass      173 209ff
Double beta decay, nuclear matrix elements      182ff
Double beta decay, phase space factor      167 174 178ff
Double beta decay, right-handed current      178ff 209ff
Double positron decay      162
Electron capture      37 162ff
Electron muon universality      67
Endpoint of beta spectrum      22ff 33 71
Exclusive oscillation experiments      91
Fermi coupling constant      22 46 62 79 147
Fermi gas model      48
Fermi matrix element      54 160 176 190
Fermilab (FNAL)      118 120
Fierz transformation      147
Final state effect      23 25ff 35ff
Fission reactors      99ff
Flatness problem      219
Flavor oscillations      13 95ff
Flavor, leptons      43 90
Flavor, quarks      18
Form factor, isoscalar      52ff
Form factor, isovector      52ff
Frejus experiment      125
Friedmann Universe      217
Gallex experiment      143 145 157
Gamow — Teller giant resonance      186
Gamow — Teller matrix element      54 160 182 184ff
Geochemical methods      134 206ff
Germanium detector      196ff
GIM mechanism      83 84
Goldberger — Treiman relations      45 52
Gosgen experiment      99ff
Gotthard underground laboratory      194 197
Gran Sasso laboratory      144 194
Grand unification      16ff 89
GUT mass scale      17ff
Heavy neutrino admixture      60ff 72
Heavy neutrino decay      77ff
Helicity      4 6 52 173
Helicity factor      62 97
Higgs boson      17 87 178
Homestake Mine      136ff 197
Hubble constant      218
ILL laboratory      72 100
IMB detector      125 228ff
Inclusive oscillation experiments      92 99ff 134
Index of refraction      57 145ff
Inflation      219

INS tritium experiment      28
Intermediate vector boson      2 12 16 83 146 174
Intrinsic parity      7
Isoscalar current      51ff
Isoscalar form factor      52
Isotopic spin      45ff 128
Isovector current      52ff
Isovector form factor      51
ITEP laboratory      26ff 198
Kamiokande experiment      124 139 141ff 152 155 197 228ff
KARMEN experiment      56
KEK laboratory      68
Kobayashi — Maskava matrix      77 98
Kurie plot      23 72
Lagrangian, mass term      9ff 15 95
Lagrangian, weak interaction term      12 57 97 177
LAMPF laboratory      84 113 118 131
Landau — Zener effect      153
Left-handed current      12 97
Left-right symmetry      178
Lepton number      3 8 12 13 16 86 90 97 173
LNSD experiment      118
Los Alamos tritium experiment      31ff
Majorana mass term      8ff 15 16 97 177
Majorana neutrino      4 11 15 16 79 82 84 159 173 177
Majoron      17 84 178
Mass eigenstates      52ff 59 147 212
Mass matrix      8ff 52ff
Mass, neutrino, effective      177 209
Matter oscillations      19 145ff
Michel spectrum      41 76
Milking experiments      204
Mixing angle      13 18 86 92ff 147ff
mixing matrix      15 59 83 90ff
Momentum transfer      44 49 54
Mont Blanc tunnel laboratory      196 227
MSW effect      146ff 155 233
Muon capture      64 69ff
Muon decay      38 76 88 130
Muon mass      38
Muon neutrino      38ff
Neutral currents      49ff
Neutrino decay      77ff 231
Neutrino dipole moment      5 232
Neutrino magnetic moment      5 11 140 232
Neutrino mixing      13ff 59 86 90ff 174
Neutrino oscillations      13ff 86 89ff 145ff
Neutrino potentials      175ff 180
Neutrino relic sea      57 222
Neutrino-electron scattering      50 146 227
Neutron decay      103
Neutron lifetime      103
Nuclear beta decay      22 70 101 160 166
Nuclear beta decay, allowed approximation      22ff 70 77 160 176
Nuclear matrix elements      22 160 182ff
Nuclear shell model      55 l83ff
NUSEX experiment      125ff
Oroville Dam experiment      197
Oscillation length      14 91ff 148
Pairing energy      161
Parity      7 213
Parity nonconservation      2 63
Pion decay      38ff 63 66ff 76 93 124
Pion mass      38
Planck time      219
Positron decay      161
Primakoff — Rosen approximation      168ff 176
Primordial nucleosynthesis      59 223
Proton decay      17
Pseudoscalar coupling      45 52
Pseudoscalar meson decays      60 77
PSI laboratory      40ff 59ff 65
Pulse shape discrimination      105
Quark current      50 178
Quark flavors      18
Quark mixing      77
Racah sequence      165
Radiative corrections      67 104
Random phase approximation (RPA)      188
Reactor experiments      99ff
Reactor fuel composition      100
Relic neutrinos      57 220ff
Relic photons      220
Right-handed current      6 83 98 178ff 208ff
Rovno experiment      106
SAGE experiment      144 157
Savannah River experiment      106 130
Screening correction      36
Second class current      45 51
Second class oscillations      98
See-saw mechanism of mass generation      17ff 153 155
Silicon detector      201
SLAC experiments      41
Solar neutrino detector      139ff 155ff
Solar neutrino flux      134ff 155
Solar Neutrino Unit (SNU)      137
Standard model of weak interaction      2 16 49 128 173
Standard solar model      135
Subdominant decay branch      59ff 70 77
Supernova      221ff
Symmetry energy      161
Tau lepton      41ff
Tau lepton decay      41ff 76
Tau neutrino      41ff
Tellurium experiments      206ff
Three-body decay      59 70ff
Time dilatation      79 231
Time projection chamber      202ff
Tritium beta decay      22ff
TRIUMF laboratory      65
Two-body decay      38 59ff
Two-nucleon mechanism of double beta decay      165ff 177
Universality      12 67 122
Vector coupling constant      57 160
Vector current      44 50ff
Weak magnetism      45 103
Weinberg angle      50 57 128
Z boson      2 16 59 146
Zurich tritium experiments      281ff

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