94 research outputs found

    Unitary inflaton as decaying dark matter

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    We consider the inflation model of a singlet scalar field (sigma field) with both quadratic and linear non-minimal couplings where unitarity is ensured up to the Planck scale. We assume that a Z2Z_2 symmetry for the sigma field is respected by the scalar potential in Jordan frame but it is broken explicitly by the linear non-minimal coupling due to quantum gravity. We discuss the impacts of the linear non-minimal coupling on various dynamics from inflation to low energy, such as a sizable tensor-to-scalar ratio, a novel reheating process with quartic potential dominance, and suppressed physical parameters in the low energy, etc. In particular, the linear non-minimal coupling leads to the linear couplings of the sigma field to the Standard Model through the trace of the energy-momentum tensor in Einstein frame. Thus, regarding the sigma field as a decaying dark matter, we consider the non-thermal production mechanisms for dark matter from the decays of Higgs and inflaton condensate and show the parameter space that is compatible with the correct relic density and cosmological constraints.Comment: 36 pages, 7 figures, v2: minor corrections made and references added, v3: discussion on preheating added, accepted for Journal of High Energy Physics, v4: Lyman-alpha bound included and inflationary predictions refined for perturbative reheatin

    Pendulum Leptogenesis

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    We propose a new non-thermal Leptogenesis mechanism that takes place during the reheating epoch, and utilizes the Ratchet mechanism. The interplay between the oscillation of the inflaton during reheating and a scalar lepton leads to a dynamical system that emulates the well-known forced pendulum. This is found to produce driven motion in the phase of the scalar lepton which leads to the generation of a non-zero lepton number density that is later redistributed to baryon number via sphaleron processes. This model successfully reproduces the observed baryon asymmetry, while simultaneously providing an origin for neutrino masses via the seesaw mechanism.Comment: 14 pages, no figures; minor revision to match PL

    LHC Searches for Top-philic Kaluza-Klein Graviton

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    We study the phenomenology of a massive graviton GG with non-universal couplings to the Standard Model (SM) particles. Such a particle can arise as a warped Kaluza-Klein graviton from a framework of the Randall-Sundrum extra-dimension model. In particular, we consider a case in which GG is top-philic, i.e., GG interacts strongly with the right-handed top quark, resulting in the large top-loop contributions to its production via the gluon fusion and its decays to the SM gauge bosons. We take into account the constraints from the current 13 TeV LHC data on the channels of ttˉt\bar{t}, γγ\gamma\gamma, jj(gg)jj (gg), γZ\gamma Z, and ZZZZ. Consequently, it is found that the strongest limit for this spin-2 resonance GG comes from the ttˉt\bar{t} pair search, which constrains the cutoff scale to be of O{\cal O}(100 GeV) for the right-top coupling of O(1){\cal O}(1) and the massive graviton mass in the range mGm_G=2-5 TeV, significantly relaxed compared with the universal GG coupling case.Comment: 20 pages, 7 figures, 2 tables, revised version accepted by JHE
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