Higgs inflation, seesaw physics and fermion dark matter

Date
2015-06-03
Journal Title
Journal ISSN
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Publisher
Elsevier Science BV
Abstract
We present an inflationary model in which the Standard Model Higgs doublet field with non-minimal coupling to gravity drives inflation, and the effective Higgs potential is stabilized by new physics which includes a dark matter particle and right-handed neutrinos for the seesaw mechanism. All of the new particles are fermions, so that the Higgs doublet is the unique inflaton candidate. With central values for the masses of the top quark and the Higgs boson, the renormalization group improved Higgs potential is employed to yield the scalar spectral index ns 0.968, the tensor-to-scalar ratio r 0.003, and the running of the spectral index α=dns/d lnk −5.2 ×10−4for the number of e-folds N0=60(ns 0.962, r 0.004, and α −7.5 ×10−4for N0=50). The fairly low value of r 0.003predicted in this class of models means that the ongoing space and land based experiments are not expected to observe gravity waves generated during inflation.
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Citation
Okada, Nobuchika, and Qaisar Shafi. "Higgs inflation, seesaw physics and fermion dark matter." Physics Letters B 747 (2015): 223-228.