Amit Chakraborty, Biswaranjan Das, J. Lorenzo Diaz-Cruz, Dilip Kumar Ghosh, Stefano Moretti, P. Poulose
The ATLAS and CMS collaborations have observed independently a new Higgs-like particle with a mass $M_h \sim$ 125 GeV. It is of great interest nowadays to understand the origin and identity of such a particle, whether it comes from the Standard Model (SM) or from some extension of it, such as Supersymmetry (SUSY).The simplest SUSY extension of the SM, the so-called Minimal Supersymmetric Standard Model (MSSM), predicts the tree-level mass relation $M_h\leq M_Z$, so that significant radiative corrections, coming from heavy stop masses and/or large values of $\tan\beta$, are required in order to reach a 125 GeV Higgs boson mass, as well known. Literature already exists within the MSSM also for the case of attempting to explain other ATLAS and CMS results, in particular, an apparent excess in the $gg$-induced $\gamma\gamma$ channel, over and above the SM predictions in presence of a Higgs boson. Here, we are interested in evaluating the modifications on these (CP-conserving) MSSM results that appear within the CP-violating version of the MSSM. Namely, we will evaluate the role of the complex phases of the soft SUSY terms and the $\mu$ parameter on both the mass of the light Higgs boson, $h_1$, and their effects on the rates for the process $gg \rightarrow h_1 \rightarrow \gamma \gamma$.
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http://arxiv.org/abs/1301.2745
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