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Light NMSSM Neutralino Dark Matter in the Wake of CDMS II and a 126 GeV Higgs

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arxiv 1308.5705 v2 pith:LGO6OB73 submitted 2013-08-26 hep-ph astro-ph.CO

Light NMSSM Neutralino Dark Matter in the Wake of CDMS II and a 126 GeV Higgs

classification hep-ph astro-ph.CO
keywords lighthiggsdarkmatterscatteringsm-likeannihilationboson
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Recent results from the Cryogenic Dark Matter Search (CDMS) experiment have renewed interest in light dark matter with a large spin-independent neutralino-nucleon scattering cross-section. Here, we examine the regions of the Next-to-MSSM (NMSSM) capable of producing a light neutralino with a large spin-independent scattering cross-section, with the scattering mediated by a very light singlet-like scalar, and a 126 GeV Standard Model-like Higgs consistent with the LHC results, while satisfying other relevant cosmological, flavor and collider constraints. We focus on two different scenarios for annihilation in the early universe, namely annihilation mediated by (1) a light scalar or by (2) a light pseudo-scalar. As expected, both cases are highly constrained. Nevertheless, we find that there persists potentially viable parameter space to accommodate either scenario. In the first, accidental cancellations in the couplings allow for a SM-like Higgs with a total width and invisible branching fraction compatible with the observed Higgs boson. Alternatively, the second scenario can occur in regions featuring smaller branching fractions of the SM-like Higgs to pairs of light scalars, pseudoscalars, and neutralinos without cancellations. The strongest constraints in both cases come from rare meson decays and exotic decays of the SM-like Higgs boson into neutralinos and light, CP-even Higgs pairs. We outline the relevant parameter space for both scenarios and comment on prospects for future discovery with various experiments.

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  1. Is the observed 125 GeV Higgs boson expected to be SM-like in the NMSSM?

    hep-ph 2019-07 unverdicted novelty 4.0

    Analysis of the NMSSM shows that the 125 GeV Higgs is not expected to be exactly SM-like, with deviations in signal strengths that can be correlated or anti-correlated between bosonic and fermionic channels.