Flavour data constraints on new physics and SuperIso

F. Mahmoudi; T. Hurth

arXiv:1211.2796·hep-ph·November 13, 2012·2 cites

Flavour data constraints on new physics and SuperIso

F. Mahmoudi, T. Hurth

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TL;DR

This paper examines how recent LHCb measurements of B meson decays constrain new physics models, emphasizing the role of the SuperIso program in analyzing flavor data within the MFV framework.

Contribution

It provides a detailed analysis of flavor decay constraints on new physics, highlighting the importance of the SuperIso tool and the implications of recent experimental results.

Findings

01

LHCb results significantly restrict new physics parameter space.

02

MFV hypothesis predictions are crucial for interpreting flavor decay data.

03

SuperIso effectively analyzes flavor observables in various models.

Abstract

We discuss the implications of B_s -> mu+mu- and B -> K*mu+mu- decays in the context of indirect searches for new physics, emphasising the new LHCb results. In particular, we derive the consequences of the MFV hypothesis and discuss the importance of the MFV predictions. The impact of the recent LHCb measurements in the context of the MSSM will also be addressed, and the SuperIso program will be briefly described.

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Taxonomy

TopicsDark Matter and Cosmic Phenomena · Cosmology and Gravitation Theories · Gamma-ray bursts and supernovae