Sphaleron transitions in the Minimal Standard Model and the upper bound
  for the Higgs Mass

A. Bochkarev; A. Bochkarev; A. D. Dolgov; A. G. Cohen; A. N. Redlich; D. A. Kirzhnitz; D. Diakonov; D. Diakonov; D. Diakonov; D. Diakonov; D. Diakonov; Dmitri Diakonov; F. Abe; F. Abe; F. R. Klinkhamer; G. 't Hooft; G. Ripka; I. Affleck; J. Baacke; J. Baacke; J. Kunz; J. Langer; J. Langer; Jörg Schaldach; K. Goeke; K. Olive; Klaus Goeke; L. Carson; L. Carson; L. D. Faddeev; L. Dolan; M. Shaposhnikov; M. Shaposhnikov; Maxim Polyakov; N. Manton; P. Arnold; P. Arnold; P. Sieber; Peter Sieber; R. Dashen; R. Jackiw; S. Abachi; S. Kahana; S. Weinberg; T. Akiba; T. Gould; Th. Meissner; Th. Meissner; V. Kuzmin; V. Kuzmin; Y. Brihaye; Z. Dulinski

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Sphaleron transitions in the Minimal Standard Model and the upper bound for the Higgs Mass

Authors: A. Bochkarev
A. Bochkarev
A. D. Dolgov
A. G. Cohen
A. N. Redlich
D. A. Kirzhnitz
D. Diakonov
D. Diakonov
D. Diakonov
D. Diakonov
D. Diakonov
Dmitri Diakonov
F. Abe
F. Abe
F. R. Klinkhamer
G. 't Hooft
G. Ripka
I. Affleck
J. Baacke
J. Baacke
J. Kunz
J. Langer
J. Langer
Jörg Schaldach
K. Goeke
K. Olive
Klaus Goeke
L. Carson
L. Carson
L. D. Faddeev
L. Dolan
M. Shaposhnikov
M. Shaposhnikov
Maxim Polyakov
N. Manton
P. Arnold
P. Arnold
P. Sieber
Peter Sieber
R. Dashen
R. Jackiw
S. Abachi
S. Kahana
S. Weinberg
T. Akiba
T. Gould
Th. Meissner
Th. Meissner
V. Kuzmin
V. Kuzmin
Y. Brihaye
Z. Dulinski
Publication date: 1 January 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We calculate the dissipation of the baryon number after the electroweak phase transition due to thermal fluctuations above the sphaleron barrier. We consider not only the classical Boltzmann factor but also fermionic and bosonic one-loop contributions. We find that both bosonic and especially fermionic fluctuations can considerably suppress the transition rate. Assuming the Langer--Affleck formalism for this rate, the condition that an initial baryon asymmetry must not be washed out by sphaleron transitions leads, in the Minimal Standard Model (

\sin\theta_W=0

), to an upper bound for the Higgs mass in the range 60 to 75 GeV.Comment: 49 pages, 5 figures (uuencoded PostScript); fixing of the renormalization scale has been improved, numerics has been extende

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