Theory of Neutrinos
R.N. Mohapatra (discussion leader), S. Antusch, K.S. Babu, G., Barenboim, Mu-Chun Chen, S. Davidson, A. de Gouvea, P. de Holanda, B. Dutta,, Y. Grossman, A. Joshipura, J. Kersten, Y.Y. Keum, S.F. King, P. Langacker, M., Lindner, W. Loinaz, I. Masina, I. Mocioiu, S. Mohanty
TL;DR
This paper reviews current understanding of neutrino properties, explores how experiments inform physics beyond the standard model, and discusses implications for matter-antimatter asymmetry and related experiments.
Contribution
It provides a comprehensive overview of neutrino physics and discusses potential insights into beyond standard model physics from various experiments.
Findings
Neutrino masses and mixing are key to understanding physics beyond the standard model.
Experiments can shed light on the origin of matter-antimatter asymmetry.
Some non-neutrino experiments also contribute to this understanding.
Abstract
After a brief overview of the present knowledge of neutrino masses and mixing, we summarize what can be learned about physics beyond the standard model from the various proposed neutrino experiments. We also comment on the impact of the experiments on our understanding of the origin of the matter-antimatter asymmetry of the Universe as well as what can be learned from some experiments outside the domain of neutrinos.
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Taxonomy
TopicsNeutrino Physics Research · Astrophysics and Cosmic Phenomena · Particle physics theoretical and experimental studies