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1 | (10) |
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2 Weak Interaction Before the Standard Model |
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11 | (24) |
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2.1 Pauli Hypothesis of Neutrino |
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11 | (2) |
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2.2 Fermi Theory of β-Decay |
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13 | (1) |
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2.3 General Four-Fermion Hamiltonian of β-Decay |
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14 | (1) |
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2.4 Violation of Parity in β--Decay |
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15 | (2) |
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2.5 Two-Component Neutrino Theory |
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17 | (4) |
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2.6 /x-e Universal Charged Current. Current x Current Theory |
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21 | (3) |
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2.7 Theory with Vector W Boson |
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24 | (1) |
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2.8 First Observation of Neutrinos: Lepton Number Conservation |
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25 | (2) |
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2.9 Discovery of Muon Neutrino: Electron and Muon Lepton Numbers |
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27 | (2) |
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2.10 Strange Particles. Quarks. Cabibbo Current |
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29 | (2) |
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31 | (2) |
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33 | (2) |
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3 The Standard Model of the Electroweak Interaction |
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35 | (32) |
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35 | (1) |
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3.2 SU(2) Yang-Mills Local Gauge Invariance |
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36 | (6) |
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3.3 Spontaneous Symmetry Breaking. Brout-Englert-Higgs Mechanism |
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42 | (5) |
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3.4 The Standard Model for Leptons and Quarks |
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47 | (17) |
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64 | (3) |
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67 | (12) |
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67 | (1) |
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68 | (1) |
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69 | (3) |
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4.4 Dirac and Majorana Mass Term |
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72 | (3) |
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4.5 Neutrino Mass Term in the Simplest Case of Two Neutrino Fields |
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75 | (3) |
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78 | (1) |
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5 Seesaw Mechanism of the Neutrino Mass Generation |
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79 | (10) |
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79 | (2) |
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5.2 The Generation of the Neutrino Masses by Effective Lagrangian Method |
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81 | (4) |
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5.3 Diagonalization of the Seesaw Matrix |
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85 | (2) |
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87 | (2) |
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89 | (14) |
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89 | (1) |
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6.2 The Number of Angles and Phases in the Matrix U |
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90 | (1) |
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6.3 CP Conservation in the Lepton Sector |
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91 | (3) |
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6.4 Standard Parametrization of 3 × 3 Mixing Matrix |
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94 | (3) |
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6.5 On Models of Neutrino Mixing |
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97 | (6) |
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7 Neutrino Oscillations in Vacuum |
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103 | (26) |
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103 | (1) |
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7.2 Flavor Neutrino States. Oscillations of Flavor Neutrinos |
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104 | (6) |
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7.3 Standard Expression for νl → νl' (νl -- νl') Transition Probability |
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110 | (2) |
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7.4 Alternative Expression for Neutrino (Antineutrino) Transition Probability in Vacuum |
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112 | (17) |
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7.4.1 Two-Neutrino Oscillations |
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113 | (3) |
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7.4.2 Three-Neutrino Oscillations |
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116 | (3) |
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7.4.3 Neutrino Oscillations in Leading Approximation |
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119 | (2) |
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7.4.4 νe → νe Survival Probability |
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121 | (1) |
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7.4.5 ν μ →e and ν μ νe Appearance Probabilities |
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122 | (1) |
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7.4.6 ν → νμ Survival Probability |
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123 | (1) |
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7.4.7 Transitions of Flavor Neutrinos into Sterile States |
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124 | (5) |
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129 | (18) |
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129 | (1) |
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8.2 Evolution Equation of Neutrino in Matter |
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129 | (4) |
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8.3 Propagation of Neutrino in Matter with Constant Density |
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133 | (4) |
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8.4 Adiabatic Transitions of Neutrino in Matter |
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137 | (4) |
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141 | (6) |
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9 Neutrinoless Double Beta-Decay |
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147 | (22) |
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147 | (2) |
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9.2 Basic Elements of the Theory of 0νββ-Decay |
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149 | (11) |
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9.3 Effective Majorana Mass |
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160 | (3) |
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9.3.1 Hierarchy of the Neutrino Masses |
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161 | (1) |
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9.3.2 Inverted Hierarchy of the Neutrino Masses |
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162 | (1) |
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9.3.3 Quasi-Degenerate Neutrino Mass Spectrum |
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163 | (1) |
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9.4 On the Nuclear Matrix Elements of the 0νββ-Decay |
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163 | (2) |
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9.5 Experiments on the Search for 0νββ-Decay |
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165 | (4) |
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10 On Absolute Values of Neutrino Masses |
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169 | (6) |
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10.1 Masses of Muon and Tau Neutrinos |
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169 | (1) |
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10.2 Effective Neutrino Mass from the Measurement of the High-Energy Part of the -Spectrum of Tritium |
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170 | (5) |
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11 Neutrino Oscillation Experiments |
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175 | (34) |
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175 | (2) |
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11.2 Solar Neutrino Experiments |
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177 | (12) |
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177 | (3) |
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11.2.2 Homestake Chlorine Solar Neutrino Experiment |
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180 | (1) |
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11.2.3 Radiochemical GALLEX-GNO and SAGE Experiments |
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181 | (2) |
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11.2.4 Kamiokande and Super-Kamiokande Solar Neutrino Experiments |
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183 | (2) |
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11.2.5 SNO Solar Neutrino Experiment |
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185 | (2) |
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11.2.6 Borexino Solar Neutrino Experiment |
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187 | (2) |
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11.3 Super-Kamiokande Atmospheric Neutrino Experiment |
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189 | (5) |
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11.4 KamLAND Reactor Neutrino Experiment |
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194 | (2) |
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11.5 Measurement of the Angle $13 in Reactor Experiments |
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196 | (6) |
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11.5.1 Introduction: CHOOZ Reactor Experiment |
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196 | (1) |
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11.5.2 Day a Bay Experiment |
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197 | (5) |
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11.6 Long-Baseline Accelerator Neutrino Experiments |
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202 | (7) |
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11.6.1 K2K Accelerator Neutrino Experiment |
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202 | (1) |
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11.6.2 MINOS Accelerator Neutrino Experiment |
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203 | (1) |
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204 | (2) |
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206 | (3) |
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209 | (38) |
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209 | (12) |
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209 | (1) |
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12.1.2 Cosmological Principle |
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209 | (1) |
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12.1.3 Friedman-Robertson-Walker Metric: Hubble Law |
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210 | (3) |
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12.1.4 Friedman Equations |
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213 | (6) |
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12.1.5 Solutions of the Friedman Equation |
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219 | (2) |
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12.2 Early Universe; Neutrino Decoupling |
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221 | (7) |
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228 | (1) |
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12.4 Big Bang Nucleosynthesis |
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229 | (4) |
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12.5 Large Scale Structure of the Universe and Neutrino Masses |
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233 | (4) |
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12.6 Cosmic Microwave Background Radiation |
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237 | (2) |
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239 | (3) |
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12.8 Baryogenesis Through Leptogenesis |
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242 | (5) |
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13 Conclusion and Prospects |
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247 | (6) |
| Appendices |
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A Diagonalization of a Complex Matrix |
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253 | (4) |
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B Diagonalization of a Complex Symmetrical Matrix |
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257 | (2) |
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C Diagonalization of a Real Symmetrical 2×2 Matrix |
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259 | (2) |
| References |
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261 | (12) |
| Index |
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273 | |
