Neutrino Mass and Grand Unification

Altarelli G; Ambats I (NOvA Collaboration); Anderson K; Antusch S; Aulakh C S; Ayrea D; Bahcall J N; Bertolini S; Casas J; Conrad J; Dutta B; Dutta B; Dutta B; Frampton P; Fukuyama T; Fukuyama T; Gell-Mann M; Georgi H; Glashow S L; Goh H S; Gonzalez-Garcia; Grimus W; Itow Y (T2K collaboration); King S F; King S F; Maltoni M; Minakata H; Mohapatra R N; Mohapatra R N; Mohapatra R N; Mohapatra R N; Oshimo N; Pati J C; R N Mohapatra; Raidal M; Smirnov A; Yanagida T; Yang W M

research

Neutrino Mass and Grand Unification

Authors: Altarelli G
Ambats I (NOvA Collaboration)
Anderson K
Antusch S
Aulakh C S
Ayrea D
Bahcall J N
Bertolini S
Casas J
Conrad J
Dutta B
Dutta B
Dutta B
Frampton P
Fukuyama T
Fukuyama T
Gell-Mann M
Georgi H
Glashow S L
Goh H S
Gonzalez-Garcia
Grimus W
Itow Y (T2K collaboration)
King S F
King S F
Maltoni M
Minakata H
Mohapatra R N
Mohapatra R N
Mohapatra R N
Mohapatra R N
Oshimo N
Pati J C
R N Mohapatra
Raidal M
Smirnov A
Yanagida T
Yang W M
Publication date: 3 December 2004
Publisher: 'IOP Publishing'
Doi

Abstract

Seesaw mechanism appears to be the simplest and most appealing way to understand small neutrino masses observed in recent experiments. It introduces three right handed neutrinos with heavy masses to the standard model, with at least one mass required by data to be close to the scale of conventional grand unified theories. This may be a hint that the new physics scale implied by neutrino masses and grand unification of forces are one and the same. Taking this point of view seriously, I explore different ways to resolve the puzzle of large neutrino mixings in grand unified theories such as SO(10) and models based on its subgroup

SU(2)_L\times SU(2)_R\times SU(4)_c

.Comment: 17 pages, 5 figures; Invited talk at the Nobel Symposium 129 on Neutrinos at Haga Slott, Sweden, August, 200

Similar works

Full text

Available Versions

Crossref

Last time updated on 02/01/2020