Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2004-07-25
Nucl.Phys. B710 (2005) 139-188
Physics
High Energy Physics
High Energy Physics - Phenomenology
New figures and references added, version to appear on Nucl. Phys. B, 57 pages, LaTeX, 21 eps figures
Scientific paper
10.1016/j.nuclphysb.2004.12.036
We systematically analyze the supersymmetric contributions to the mixing CP asymmetries and branching ratios of B -> Phi K(S) and B -> eta(prime) K(S) processes. We consider both gluino and chargino exchanges in a model independent way by using the mass insertion approximation method. While we adopt the QCD factorization approach for evaluating the corresponding hadronic matrix elements, a critical comparison with predictions in naive factorization one is also provided. We find that pure chargino contributions cannot accommodate the current experimental results on CP asymmetries, mainly due to b -> s gamma constraints. We show that charged Higgs contributions can relax these constraints making chargino responsible for large asymmetries. On the other hand, gluino exchanges can easily saturate both the constraints on B -> Phi K(S) and B -> eta(prime) K(S) CP asymmetries. Moreover, we also find that the simultaneous contributions from gluino and chargino exchanges could easily account for the present experimental results on the mentioned asymmetries. Remarkably, large experimentally allowed enhancements of B -> eta(prime) K(S) branching ratio can easily be achieved by the contribution of two mass insertions in gluino exchanges. Finally, we analyze the correlations between the CP asymmetries of these processes and the direct CP asymmetry in b -> s gamma decay. When all experimental constraints are satisfied, supersymmetry favors large and positive values of b -> s gamma asymmetry.
Gabrielli Emidio
Huitu Katri
Khalil Shaaban
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