Candidates for HyperCharge Axion in Extensions of the Standard Model

C. Thompson; David H. Oaknin; E. I. Guendelman; E. Witten; F. Gelis; F. Wilczek; K. Choi; K. Choi; K. R. Dienes; M. Giovannini; M. Giovannini; M. Joyce; P. Horava; P. Horava; R. Brustein; R. Brustein; R. Brustein; R. D. Peccei; R. D. Pisarski; Ram Brustein; S. Bar-Shalom; S. P. Kumar; S. Weinberg; T. Banks; T. Vachaspati

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Candidates for HyperCharge Axion in Extensions of the Standard Model

Authors: C. Thompson
David H. Oaknin
E. I. Guendelman
E. Witten
F. Gelis
F. Wilczek
K. Choi
K. Choi
K. R. Dienes
M. Giovannini
M. Giovannini
M. Joyce
P. Horava
P. Horava
R. Brustein
R. Brustein
R. Brustein
R. D. Peccei
R. D. Pisarski
Ram Brustein
S. Bar-Shalom
S. P. Kumar
S. Weinberg
T. Banks
T. Vachaspati
Publication date: 1 January 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Many theoretically well-motivated extensions of the Standard Model contain heavy pseudoscalars that couple to hypercharge topological density. The cosmological dynamics of such hypercharge axions could, under certain conditions, lead to generation of a net baryon number in a sufficient amount to explain the observed baryon asymmetry in the universe. We examine the Minimal Supersymmetric Standard Model and string/M-theory models and determine specific conditions which heavy axion-like pseudoscalars must satisfy to successfully drive baryogenesis. We find that all candidates in the Minimal Supersymmetric Standard Model fail to obey some of the constraints, and that only in special string/M-theory models some axions may be adequate.Comment: 18 pages, 1 figure, uses axodra

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