New-Physics Effects on Triple-Product Correlations in Lambda_b Decays

A. Datta; A.Y. Smirnov; Alakabha Datta; B.C. Allanach; C.E. Carlson; D.K. Ghosh; David London; E. Nardi; G. Hiller; G. Valencia; H.Y. Cheng; I. Hinchliffe; J. Bernabéu; K. Hagiwara; K. Leroux; M. Gronau; S. Pakvasa; W. Bensalem; W. Bensalem; Wafia Bensalem; Y. Grossman; Y. Grossman; Y. Nir

research

New-Physics Effects on Triple-Product Correlations in Lambda_b Decays

Authors: A. Datta
A.Y. Smirnov
Alakabha Datta
B.C. Allanach
C.E. Carlson
D.K. Ghosh
David London
E. Nardi
G. Hiller
G. Valencia
H.Y. Cheng
I. Hinchliffe
J. Bernabéu
K. Hagiwara
K. Leroux
M. Gronau
S. Pakvasa
W. Bensalem
W. Bensalem
Wafia Bensalem
Y. Grossman
Y. Grossman
Y. Nir
Publication date: 10 September 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We adopt an effective-lagrangian approach to compute the new-physics contributions to T-violating triple-product correlations in charmless Lambda_b decays. We use factorization and work to leading order in the heavy-quark expansion. We find that the standard-model (SM) predictions for such correlations can be significantly modified. For example, triple products which are expected to vanish in the SM can be enormous (~50%) in the presence of new physics. By measuring triple products in a variety of Lambda_b decays, one can diagnose which new-physics operators are or are not present. Our general results can be applied to any specific model of new physics by simply calculating which operators appear in that model.Comment: 20 pages, LaTeX, no figures. Added a paragraph (+ references) discussing nonfactorizable effects. Conclusions unchange

Similar works

Full text

Available Versions

Crossref

Last time updated on 03/01/2020