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Full Description
This important book presents the proceedings of the conference "Neutrinos and Implications for Physics Beyond the Standard Model", put on by the Yang Institute for Theoretical Physics, State University of New York at Stony Brook.The observation of neutrino masses and lepton mixing constitutes the first confirmed evidence for physics beyond the Standard Model. This evidence includes the measured deficiency of charged current reactions induced by solar neutrinos and the anomalous zenith angle distribution of atmospheric neutrinos. A profound question now facing theorists is: What do these observations imply for new physics? At the conference, members of the major experiments gave an update on current experimental evidence from solar and atmospheric neutrino data for neutrino oscillations, and status reports from KamLAND and MiniBooNE. Leading theorists also reported on neutrinoless double beta decay, high energy neutrino scattering and precision electroweak data, theoretical models for neutrino masses and lepton mixing, and constraints from neutrino data, etc. Since neutrino physics is at present one of the most exciting areas of particle physics, this volume should be of interest to a wide variety of students and researchers in physics.
Contents
Introduction to the Conference (R Shrock, Stony Brook); Necessary Subtlety and Unnecessary Subtley (C N Yang, Stony Brook/Beijing/CUHK); Neutrinos Past and Present (M Goldhaber, BNL); Solar Neutrinos: An Historical Overview (J N Bahcall, IAS, Princeton); Solar Neutrino Results from Superkamiokande (Y Takeuchi, ICRR, Tokyo); Results from the Pure D2O Phase of the Sudbury Neutrino Observatory (F Duncan, Queen's Univ.); Results from SuperKamiokande on Atmospheric Neutrinos and Limits on Matter Instability (C Saji, ICRR, Tokyo); Oscillation Investigations in Soudan 2: Atmospheric numu to nutau and n to n in Iron (T Mann, Tufts Univ.); sin2 (qw) from Neutrino Scattering at NuTeV (K McFarland, Univ. of Rochester); MINOS: The Physics Program and Construction Status (K Lang, Univ. of Texas); Status of the OPERA Experiment on the CNGS Neutrino Beam (P Migliozzi, INFN Napoli); Status of Borexino (A Ianni, Gran Sasso National Lab); Neutrino Masses, Oscillations and Tests with Experiments at Superbeams and a Neutrino Factory (M Lindner, Tech. Univ. Munich); Neutrino Masses with Dynamical Electroweak Symmetry Breaking (T Applelquist, Yale Univ.); SO(10) GUT Models and Their Present Success in Explaining Mass and Mixing Data (C Albright, Northern Illinois Univ./FNAL); Symmetries of Neutrino Mixing (W G Scott, Rutherford Appleton Lab); Overview of SUSY GUT Models of Neutrino Mixing (S M Barr, Bartol Research Insititute); New Local Symmetries Indicated by Neutrino Oscillation Results (R Mohapatra, Univ. of Maryland); Some Implications of Models with Large Extra Dimensions (S Nussinov, Tel Aviv Univ.); Alternatives to the Seesaw: Extra Z's and Constraints on Large Extra Dimensions (P Langacker, Univ. of Pennsylvania); Prospects for Conventional Long-Baseline Oscillation Experiments and Comparison with a Neutrino Factory (D A Harris, FNAL); Very-Long-Baseline Neutrino Oscillation Experiments for Precise Measurements of Oscillation Parameters and Search for CP Violation (M V Diwan, BNL); Hyper-Kamiokande - A Next Generation Water Cherenkov Detector (K Nakamura, KEK ); Physics with Cosmic Neutrinos, PeV to ZeV (T J Weiler, Vanderbilt Univ.); Ultrahigh Energy Neutrinos (M H Reno, Univ. of Iowa); Experiments for Neutrinoless Double-Beta Decay (S R Elliot, LANL); To Be or Not to Be? - First Evidence for Neutrinoless Double Beta Decay (H V Klapdor-Kleingrothaus, Max Planck Institute); A National Underground Science and Engineering Laboratory (T J Bowles, LANL); Probing Grand Unification Through Neutrino Oscillations, Leptogenesis, and Proton Decay (J Pati, Univ. of Maryland).
