This volume reviews the progress of the Seesaw mechanism since its invention 25 years ago, as well as presents the recent theoretical developments in the understanding of the observed pattern in neutrino masses and mixings. Observable implications of the seesaw mechanism like leptogenesis or lepton flavor violation in supersymmetric theories are addressed, and the key aspects of the vast experimental program aimed at determining the neutrino parameters and properties are also reviewed. The book provides an up-to-date and in-depth perspective on neutrino masses.
Author(s): J. Orloff, S. Lavignac, International Conference on the Seesaw M, Michel Cribier, Michel Cribier
Publisher: World Scientific Publishing Company
Year: 2005
Language: English
Pages: 280
CONTENTS......Page 10
Foreword......Page 6
1. Introduction......Page 12
3. Old & New Puzzles......Page 13
5. Grand-unified Legacies......Page 14
6. Superstrings......Page 15
7. Supersymmetry......Page 16
8. Minute Neutrino Masses......Page 17
9. Standard Model Analysis......Page 18
10. A Modicum of Grand Unification......Page 21
11. Right-Handed Hierarchy......Page 23
12. Cabibbo Flop......Page 24
References......Page 28
1. Introduction......Page 30
2. Nonthermal leptogenesis from inflaton decay......Page 32
3. A chaotic inflation model in SUGRA......Page 33
4. Leptogenesis in the chaotic inflation model......Page 35
5. Conclusions......Page 36
References......Page 38
1. Introduction......Page 40
2. Seesaw mechanism......Page 41
3. Why seesaw mechanism is so appealing ?......Page 42
4. Seesaw and large neutrino mixings......Page 45
5. A predictive minimal SO(10) theory for neutrinos......Page 46
6. CP violation in the minimal SO(10) model......Page 50
7. Radiative generation of large mixings: another application of type II seesaw......Page 51
8. Other realizations of seesaw......Page 52
References......Page 54
1. The parameters......Page 56
2. See-saw in the Standard Model......Page 57
4. Grand unification: SU(5)......Page 59
5. SO(10): the minimal theory of matter and gauge coupling unification......Page 60
6. Supersymmetric SO(10) GUT......Page 63
7. SUSY? Who needs her?......Page 70
8. Summary and Outlook......Page 72
References......Page 73
1. Neutrinos Within the Standard Model......Page 76
2. Birth of the Solar Neutrino Problem......Page 77
3. The Atmospheric Neutrino Anomaly......Page 79
4. Neutrino Flavor Change in Solar Neutrinos......Page 80
5. Signatures of Neutrino Oscillation in Reactor Experiments......Page 84
6. Evidence for Neutrino Mass in Oscillation Experiments......Page 85
7. Direct Neutrino Mass Measurements......Page 88
9. Probing the Nature of Neutrinos and v Mass in Qi/(3(3......Page 89
References......Page 91
1. Introduction......Page 92
2. Quark Textures......Page 94
3. Extension to leptons......Page 100
4. Summary and conclusions......Page 107
References......Page 108
1. Introduction......Page 110
2. Running below the seesaw scale......Page 111
3. Analytical Formulae......Page 112
4. RG Evolution of 13, 23, 12......Page 114
5. RG Corrections to Leptogenesis Parameters......Page 119
6. Conclusions......Page 120
References......Page 121
1. Introduction......Page 122
2. Supersymmetric Seesaw and Leptonic Flavour Violation......Page 124
3. SO(10) and SUSY Seesaw......Page 126
References......Page 133
1. Introduction......Page 138
2. Minimal SUSY Seesaw Model......Page 139
3. SUSY SU(5) GUT with Right-Handed Neutrinos......Page 143
4. Summary......Page 147
References......Page 148
1. Smallness of Neutrino Masses and the Seesaw Mechanism......Page 150
2. The Seesaw Mechanism and Leptogenesis......Page 152
3. Standard Thermal Leptogenesis......Page 154
References......Page 159
1. Introduction......Page 162
2. The Three Basic Ingredients of Leptogenesis......Page 163
3. The Neutrino Mass Constraints......Page 165
4. Leptogenesis in the Framework of Other Seesaw Models......Page 170
6. Summary......Page 177
References......Page 178
1. Millimeter and TeV-1 large extra dimensions......Page 180
2. Bulk physics: Neutrino masses with large extra dimensions......Page 183
3. Multiple seesaw in low scale strings......Page 189
References......Page 192
1. Introduction......Page 194
2. Neutrino Decoupling......Page 195
3. Neutrinos in Structure Formation......Page 196
4. General Thermal Relics......Page 200
5. Conclusion......Page 201
References......Page 202
1. Introduction and focus of this paper......Page 206
2. Organic liquid scintillators......Page 209
3. Liquefied noble gases......Page 210
4. Germanium projects......Page 214
5. Liquid Argon Germanium hybrid detectors: LArGe......Page 215
6. Outlook......Page 216
References......Page 217
1. Introduction......Page 218
2. Structure of the Models......Page 219
3. Neutrino Seesaw......Page 220
4. Quark mass matrices......Page 222
5. Electromagnetic and Color Dipole Moment Matrices......Page 223
6. The Strong CP Problem......Page 225
7. Electric and Chromoelectric Dipole Moments......Page 227
8. Experimental Bounds......Page 228
References......Page 229
Alternatives to the Seesaw Mechanism A. Yu. Smirnov......Page 11
1. What is wrong with the Seesaw?......Page 232
2. Why alternatives?......Page 234
3. Classifying alternatives......Page 236
4. Mechanisms never die......Page 238
5. Old and New......Page 241
6. Extra dimensions and Extra possibilities......Page 243
7. Conclusion......Page 245
References......Page 246
1. Introduction......Page 248
2. Neutrinoless Double Decay......Page 249
3. Direct Neutrino Mass Experiments......Page 251
4. The KATRIN Experiment......Page 255
5. Conclusions......Page 258
References......Page 259
1. Introduction......Page 260
2. Parametrisations......Page 262
3. (Supersymmetric) reconstruction?......Page 264
4. Independence, orthogonality and relations when we cannot reconstruct......Page 266
5. Rethink: what happens in the Standard Model?......Page 269
Acknowledgements......Page 270
References......Page 271
Horizontal Gauge Symmetries and Masses of Neutrinos T. Yanagida......Page 272
References......Page 275
The Family Group in Grand Unified Theories P. Ramond......Page 276
Acknowledgement......Page 286
References......Page 290
