Speaker
Description
We analyze in a model-independent way the potential to probe new physics using Higgs decay to ϒγ. The h→ϒγ decay width is unusually small in the Standard Model because of an accidental cancellation among the direct and indirect decay diagrams. Thus, any new physics that can modify the direct or the indirect decay amplitudes disrupts the accidental Standard Model cancellation and can potentially lead to a relatively large decay width for h→ϒγ. We carry out a detailed model-independent analysis of the possible new physics that can disrupt this cancellation. We demonstrate that after taking into account all possible constraints on Higgs production and decay processes from experimental measurements, the wrong-sign hbb coupling is the only scenario in which the h→ϒγ decay width can be changed by almost two orders of magnitude. We conclude that an observation of a significantly enhanced h→ϒγ decay width at the LHC or any future collider will be a conclusive evidence of a wrong-sign hbb coupling.
| Session | Higgs Physics |
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