Role of lepton flavor violating (LFV) muon decay in Seesaw model and
  LSND

A. Acker; A. Bueno; B.T. Cleveland; C. Athanassopoulos; C. Athanassopoulos; C. Athanassopoulous; C. Athanassopoulous; C.Y. Cardall; D. Groom; E. Ma; E. Ma; Ernest Ma; J.I. Illana; J.N. Abdurashitov; M. Jamil Aslam; M.K. Gaillard; R. Foot; R.N. Mohapatra; R.P. Thun; Riazuddin,; S. Fukada; S. Nissinov; S. Weinberg; S.J. Freedman; W. Hampel; W.W.M. Allison; Y. Fukuda; Y. Fukuda

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Role of lepton flavor violating (LFV) muon decay in Seesaw model and LSND

Authors: A. Acker
A. Bueno
B.T. Cleveland
C. Athanassopoulos
C. Athanassopoulos
C. Athanassopoulous
C. Athanassopoulous
C.Y. Cardall
D. Groom
E. Ma
E. Ma
Ernest Ma
J.I. Illana
J.N. Abdurashitov
M. Jamil Aslam
M.K. Gaillard
R. Foot
R.N. Mohapatra
R.P. Thun
Riazuddin
S. Fukada
S. Nissinov
S. Weinberg
S.J. Freedman
W. Hampel
W.W.M. Allison
Y. Fukuda
Y. Fukuda
Publication date: 10 September 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The aim of the work is to study LFV in a newly proposed Seesaw model of neutrino mass and to see whether it could explain LSND excess. The motivation of this Seesaw model was that there was no new physics beyond the TeV scale. By studying \mu \to 3e in this model, it is shown that the upper bound on the branching ratio requires Higgs mass m_{h} of a new scalar doublet with lepton number L=-1 needed in the model has to be about 9 TeV. The predicted branching ratio for \mu \to e\nu_{l}\bar{\nu}_{l} is too small to explain the LSND. PACS: 11.30.Hv, 14.60.PqComment: 05 pages, three figures, the version to appear in PR

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