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Weinberg's Higgs portal confronting recent LUX and LHC results together with upper limits on B^+ and K^+ decay into invisibles

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arxiv 1312.2547 v2 pith:DDHQA4JR submitted 2013-12-09 hep-ph astro-ph.HE

Weinberg's Higgs portal confronting recent LUX and LHC results together with upper limits on B^+ and K^+ decay into invisibles

classification hep-ph astro-ph.HE
keywords higgsparameterresultsspaceexperimentalfermionscalartheta
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We discuss a number of experimental constraints on Weinberg's Higgs portal model. In this framework, the standard model (SM) particle spectrum is extended to include one complex scalar field S and one Dirac fermion \psi. These new fields are singlets under the SM gauge group and are charged under a global U(1) symmetry. Breaking of this U(1) symmetry results in a massless Goldstone boson \alpha and a massive CP-even scalar r, and splits the Dirac fermion into two new mass-eigenstates \psi_\pm, corresponding to Majorana fermions. The interest on such a minimal SM extension is twofold. On the one hand, if the Goldstone bosons are in thermal equilibrium with SM particles until the era of muon annihilation their contribution to the effective number of neutrino species can explain the hints from cosmological observations of extra relativistic degrees of freedom at the epoch of last scattering. On the other hand, the lightest Majorana fermion \psi_- provides a plausible dark matter candidate. Mixing of r with the Higgs doublet \phi is characterized by the mass of hidden scalar m_h and the mixing angle \theta. We constrain this parameter space using a variety of experimental data, including heavy meson decays with missing energy, the invisible Higgs width, and direct dark matter searches. We show that different experimental results compress the allowed parameter space in complementary ways, covering a large range of \psi_- masses (5 GeV \alt m_- \alt 100 GeV). Though current results narrow the parameter space significantly (for the mass range of interest, \theta \alt 10^{-3} to 10^{-4}), there is still room for discovery (\alpha decoupling at the muon annihilation era requires \theta \agt 10^{-5} to 10^{-4}). In the near future, measurements from ATLAS, CMS, LHCb, NA62, XENON1T, LUX, and CDMSlite will probe nearly the full parameter space.

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