Neutrino physics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton, Fla. [u.a.]
CRC Press
2012
|
| Ausgabe: | 2. ed. |
| Schriftenreihe: | Series in high energy physics, cosmology, and gravitation
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVIII, 448 S. Ill., graph. Darst. |
| ISBN: | 9781420064711 |
Internformat
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| 264 | 1 | |a Boca Raton, Fla. [u.a.] |b CRC Press |c 2012 | |
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| 337 | |b n |2 rdamedia | ||
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Datensatz im Suchindex
| _version_ | 1804138568415707136 |
|---|---|
| adam_text | Titel: Neutrino physics
Autor: Zuber, Kai
Jahr: 2012
Contents
Preface to the second edition xiii
Preface to the first edition xv
Notation xvii
Important historical experiments 1
1.1 The birth of the neutrino 1
1.2 Nuclear recoil experiment by Rodeback and Allen 3
1.3 Discovery of the neutrino by Cowan and Reines 4
1.4 Difference between ve and Pe and solar neutrino detection 5
1.5 Discovery of parity violation in weak interactions 7
1.6 Direct measurement of the helicity of the neutrino 10
1.7 Experimental proof that v^ is different from ve 11
1.8 Discovery of weak neutral currents 12
1.9 Discovery of the weak gauge bosons W and Z 14
1.10 Observation of neutrinos from SN 1987 A 15
1.11 Number of neutrino flavors from the width of the Z° 15
Properties of neutrinos 19
2.1 Helicity and chirality 19
2.2 Charge conjugation 22
2.3 Parity transformation 23
2.4 Dirac and Majorana mass terms 24
2.4.1 Generalization to n flavors 28
2.5 Lepton number 29
2.5.1 Experimental status of lepton number violation 30
The standard model of particle physics 33
3.1 The V-A theory of the weak interaction 33
3.2 Gauge theories 35
3.2.1 The gauge principle 36
3.2.2 Global symmetries 38
3.2.3 Local (= gauge) symmetries 39
3.2.4 Non-Abelian gauge theories (= Yang-Mills theories) 40
3.3 The Glashow-Weinberg-Salam model 41
vi Contents
3.3.1 Spontaneous symmetry breaking and the Higgs mechanism 44
3.3.2 The CKM mass matrix 47
3.3.3 CP violation 50
3.4 Experimental determination of fundamental parameters 51
3.4.1 Measurement of the Fermi constant Gf 52
3.4.2 Neutrino-electron scattering and the coupling constants gv
and gA 53
3.4.2.1 Theoretical considerations 53
3.4.2.2 v^e scattering 55
3.4.2.3 i/ee and uee scattering 55
3.4.2.4 Neutrino tridents 58
3.4.3 Measurement of the Weinberg angle 58
3.4.4 Measurement of the gauge boson masses mw and mz 60
3.4.5 Search for the Higgs boson 62
4 Neutrinos as a probe of nuclear structure 65
4.1 Neutrino beams 65
4.1.1 Conventional beams 65
4.1.1.1 Narrow-band beams (NBB) 67
4.1.1.2 Wide-band beams (WBB) 69
4.1.2 vT beams 70
4.1.3 Neutrino beams from muon decay 70
4.2 Neutrino detectors 71
4.2.1 CDHS 71
4.2.2 NOMAD 72
4.2.3 CHORUS 72
4.3 Total cross section for neutrino-nucleon scattering 74
4.4 Kinematics of deep inelastic scattering 76
4.5 Quasi-elastic neutrino-nucleon scattering 78
4.5.1 Quasi-elastic CC reactions 79
4.5.2 Quasi-elastic NC reactions 80
4.6 Coherent, resonant and diffractive production 82
4.7 Structure function of nucleons 84
4.8 The quark-parton model, parton distribution functions 85
4.8.1 Deep inelastic neutrino proton scattering 87
4.8.1.1 QCD effects 90
4.9 y distributions and quark content from total cross sections 91
4.9.1 Sum rules 93
4.10 Charm physics 96
4.11 Neutral current reactions 99
4.12 Neutrino cross section on nuclei 101
Contents vii
Neutrino masses and physics beyond the standard model 105
5.1 Running coupling constants 106
5.2 The minimal SU(5) model 107
5.2.1 Proton decay 110
5.3 The SO(10) model 111
5.3.1 Left-right symmetric models 111
5.4 Supersymmetry 114
5.4.1 The minimal supersymmetric standard model (MSSM) 115
5.4.2 .R-parity 116
5.4.3 Experimental search for supersymmetry 117
5.4.3.1 SUSY signatures at high energy colliders 119
5.4.3.2 SUSY GUTs and proton decay 119
5.5 Neutrino masses 120
5.5.1 Neutrino masses in the electroweak theory 121
5.5.2 Neutrino masses in the minimal SU(5) model 122
5.5.3 Neutrino masses in the SO(10) model and the seesaw
mechanism 122
5.5.3.1 Almost degenerated neutrino masses 123
5.5.4 Neutrino masses in SUSY and beyond 123
5.6 Neutrino mixing 123
Direct neutrino mass searches 127
6.1 Fundamentals of/?-decay 127
6.1.1 Matrix elements 129
6.1.2 Phase space calculation 132
6.1.3 Kurie plot and ft values 133
6.2 Searches for mPe 136
6.2.1 General considerations 136
6.2.2 Searches using spectrometers 137
6.2.2.1 Future spectrometers-KATRIN 139
6.2.3 Cryogenic searches 140
6.2.4 Kinks in /3-decay 142
6.3 Searches for m e 145
6.4 mVfi determination from pion decay 146
6.5 Mass of the vT from tau decay 146
6.6 Electromagnetic properties of neutrinos 147
6.6.1 Electric dipole moments 149
6.6.2 Magnetic dipole moments 149
6.7 Neutrino decay 152
6.7.1 Radiative decay vh -» vl + 7 153
6.7.2 The decay uH -» vL + e+ 4- e- 154
6.7.3 The decay vH -+vl + X 155
viii Contents
7 Double /3-decay 157
7.1 Introduction 157
7.2 Decay rates 162
7.2.1 The 2v/3f3 decay rates 162
7.2.2 The Ou/3/3 decay rates 165
7.2.3 Majoron accompanied double/3-decay 167
7.3 Nuclear structure effects on matrix elements 168
7.4 Experiments 170
7.4.1 Practical considerations in low-level counting 173
7.4.2 Direct counting experiments 175
7.4.2.1 Semiconductor experiments 175
7.4.2.2 Scintillator experiments 177
7.4.2.3 Cryogenic detectors 178
7.4.2.4 Ionization experiments 178
7.4.3 Geochemical experiments 179
7.4.4 Radiochemical experiments 181
7.5 Interpretation of the obtained results 181
7.5.1 Effects of MeV neutrinos 183
7.5.2 Transitions to excited states 184
7.5.3 Majoron accompanied decays 184
7.5.4 Decay rates for SUSY-induced Oi//3/3 decay 184
7.6 Future plans and activities 186
7.7 /3+f3+ decay 186
7.8 CP phases and double 0 decay 187
7.9 Generalization to three flavors 188
7.9.1 General considerations 188
7.9.1.1 Muon-positron conversion on nuclei 189
7.9.1.2 Processes investigating (mw) 189
7.9.1.3 Limits on (mTT) from CC events at HERA 191
8 Neutrino oscillations 193
8.1 General formalism 193
8.2 CP and T violation in neutrino oscillations 196
8.3 Oscillations with two neutrino flavors 197
8.4 The case for three flavors 199
8.5 Experimental considerations 200
8.6 Nuclear reactor experiments 201
8.6.1 Experimental status 203
8.6.1.1 CHOOZ 203
8.6.1.2 Palo Verde 204
8.6.1.3 KamLAND 207
8.6.2 Geoneutrinos 209
8.6.3 Future 210
8.6.3.1 Borexino 210
8.6.3.2 SNO+ 211
Contents ix
8.6.3.3 Measuring ^13 at reactors 211
8.7 Accelerator-based oscillation experiments 212
8.7.1 LSND 212
8.7.2 KARMEN 213
8.7.3 MiniBooNE 215
8.8 Searches at higher neutrino energy 216
8.8.1 CHORUS and NOMAD 217
8.9 Neutrino oscillations in matter 220
8.10 Future activities-Determination of the PMNS matrix elements 223
8.11 Possible future beams 224
8.11.1 Off-axis superbeams 224
8.11.2 Beta beams 226
8.11.3 Muon storage rings-neutrino factories 226
9 Atmospheric neutrinos 229
9.1 Cosmic rays 229
9.2 Interactions within the atmosphere 231
9.3 Experimental status 236
9.3.1 Super-Kamiokande 236
9.3.1.1 The u^lve ratio 238
9.3.1.2 Zenith-angle distributions 241
9.3.1.3 Oscillation analysis 242
9.3.2 Soudan-2 246
9.3.3 MACRO 246
9.4 Accelerator-based searches-long-baseline experiments 248
9.4.1 K2K 249
9.4.2 MINOS 250
9.4.3 CERN-Gran Sasso 251
9.4.4 INO-ICAL 254
9.4.5 Very large water Cerenkov detectors 255
9.4.6 AQUA-RICH 255
10 Solar neutrinos 257
10.1 The standard solar model 257
10.1.1 Energy production processes in the Sun 257
10.1.2 Reaction rates 260
10.1.3 The solar neutrino spectrum 262
10.1.3.1 Standard solar models 263
10.1.3.2 Diffusion 264
10.1.3.3 Initial composition 265
10.1.3.4 Opacity and equation of state 265
10.1.3.5 Predicted neutrino fluxes 266
10.2 Solar neutrino experiments 268
10.2.1 The chlorine experiment 270
10.2.2 Super-Kamiokande 270
10.2.3 The gallium experiments 272
x Contents
10.2.3.1 GALLEX 273
10.2.3.2 GNO 273
10.2.3.3 SAGE 274
10.2.4 The Sudbury Neutrino Observatory (SNO) 275
10.2.5 The Borexino experiment 278
10.3 Theoretical solutions-matter effects 279
10.3.1 Neutrino oscillations as a solution to the solar neutrino
problem 279
10.3.2 Neutrino oscillations in matter and the MSW effect 279
10.3.2.1 Constant density of electrons 282
10.3.2.2 Variable electron density 284
10.3.3 Experimental signatures and results 285
10.3.4 The magnetic moment of the neutrino 290
10.4 Future potential experiments 292
10.4.1 Real-time measurement of pp neutrinos using coincidence
techniques 294
11 Neutrinos from supernovae 297
11.1 Supernovae 297
11.1.1 The evolution of massive stars 298
11.1.2 The actual collapse phase 301
11.2 Neutrino emission in supernova explosions 306
11.3 Detection methods for supernova neutrinos 308
11.4 Supernova 1987A 309
11.4.1 Characteristics of supernova 1987A 309
11.4.1.1 Properties of the progenitor star and the event 309
11.4.1.2 7-radiation 310
11.4.1.3 Distance 313
11.4.1.4 Summary 314
11.4.2 Neutrinos from SN 1987A 314
11.4.2.1 Possible anomalies 316
11.4.3 Neutrino properties from SN 1987A 316
11.4.3.1 Lifetime 316
11.4.3.2 Mass 318
11.4.3.3 Magnetic moment and electric charge 319
11.4.3.4 Conclusion 320
11.5 Supernova rates and future experiments 321
11.5.1 Cosmic supernova relic neutrino background 322
11.6 Neutrino oscillations and supernova signals 322
11.6.1 Effects on the prompt ve burst 323
11.6.2 Cooling phase neutrinos 324
11.6.3 Production of r-process isotopes 324
11.6.4 Neutrino mass hierarchies from supernova signals 326
11.6.5 Resonant spin flavor precession in supernovae 329
Contents xi
12 Ultra-high energetic cosmic neutrinos 331
12.1 Sources of high-energy cosmic neutrinos 331
12.1.1 Neutrinos produced in acceleration processes 332
12.1.2 Neutrinos produced in annihilation or decay of heavy
particles 337
12.1.3 Event rates 337
12.1.4 Neutrinos from active galactic nuclei 338
12.1.5 Neutrinos from gamma ray bursters 340
12.1.6 Cross sections 343
12.2 Detection 347
12.2.1 Water Cerenkov detectors 353
12.2.1.1 Baikal NT-200 353
12.2.1.2 NESTOR 356
12.2.1.3 ANTARES 359
12.2.2 Ice Cerenkov detectors - AMANDA, ICECUBE 360
12.2.3 Alternative techniques-acoustic and radio detection 360
12.2.4 Horizontal air showers-the AUGER experiment 361
13 Neutrinos in cosmology 365
13.1 Cosmological models 366
13.1.1 The cosmological constant A 369
13.1.2 The inflationary phase 372
13.1.3 The density in the universe 372
13.2 The evolution of the universe 374
13.2.1 The standard model of cosmology 374
13.3 The cosmic microwave background (CMB) 380
13.3.1 Spectrum and temperature 380
13.3.2 Measurement of the spectral form and temperature of
the CMB 381
13.3.3 Anisotropics in the 3 K radiation 381
13.3.3.1 Measurement of the anisotropy 382
13.3.3.2 Anisotropics on small scales 383
13.4 Neutrinos as dark matter 385
13.5 Candidates for dark matter 386
13.5.1 Non-baryonic dark matter 386
13.5.1.1 Hot dark matter, light neutrinos 387
13.5.1.2 Cold dark matter, heavy particles, WIMPs 388
13.5.2 Direct and indirect experiments 389
13.5.2.1 Annihilation inside the Sun or Earth 389
13.6 Neutrinos and large-scale structure 390
13.7 The cosmic neutrino background 393
13.8 Primordial nucleosynthesis 394
13.8.1 The process of nucleosynthesis 395
13.8.2 The relativistic degrees of freedom /eff and the number of
neutrino flavors 397
xii Contents
13.9 Baryogenesis via leptogenesis 399
13.9.1 Leptogenesis 400
14 Summary and outlook 405
References 411
Index 443
|
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| spelling | Zuber, Kai 1963- Verfasser (DE-588)133285286 aut Neutrino physics Kai Zuber 2. ed. Boca Raton, Fla. [u.a.] CRC Press 2012 XVIII, 448 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Series in high energy physics, cosmology, and gravitation Neutrinos Neutrino (DE-588)4171614-0 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Neutrino (DE-588)4171614-0 s DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017082917&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Zuber, Kai 1963- Neutrino physics Neutrinos Neutrino (DE-588)4171614-0 gnd |
| subject_GND | (DE-588)4171614-0 (DE-588)4123623-3 |
| title | Neutrino physics |
| title_auth | Neutrino physics |
| title_exact_search | Neutrino physics |
| title_full | Neutrino physics Kai Zuber |
| title_fullStr | Neutrino physics Kai Zuber |
| title_full_unstemmed | Neutrino physics Kai Zuber |
| title_short | Neutrino physics |
| title_sort | neutrino physics |
| topic | Neutrinos Neutrino (DE-588)4171614-0 gnd |
| topic_facet | Neutrinos Neutrino Lehrbuch |
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