A. Nayak scite author profile

We confront admixture of dark matter inside neutron star using gravitational wave constraints coming from binary neutron star merger. We consider a relativistic mean field model including σ − ω − ρ meson interaction with NL3 parameterization. We study fermionic dark matter interacting with nucleonic matter via Higgs portal mechanism. We show that admixture of dark matter inside the neutron star soften the equation state and lower the value of tidal deformability. Gravitational wave GW170817 observation puts an upper bound on tidal deformability of a binary neutron star with low spin prior at 90% confidence level, which disfavors stiff equation of state such as Walecka model with NL3 parameterization. However, we show that Walecka model with NL3 parameterization with a fermionic dark matter component satisfy the tidal deformability bound coming from the GW170817 observation. * arpan@prl.res.in †

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Erratum: Search for the associated production of the Higgs boson with a top-quark pair

Khachatryan¹,

Sirunyan²,

Tumasyan³

et al. 2014

J. High Energ. Phys.

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Search for light resonances decaying into pairs of muons as a signal of new physics

Chatrchyan¹,

Khachatryan²,

Sirunyan³

et al. 2011

J. High Energ. Phys.

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A search for groups of collimated muons is performed using a data sample collected by the CMS experiment at the LHC, at a centre-of-mass energy of 7TeV, and corresponding to an integrated luminosity of 35 pb(-1). The analysis searches for production of new low-mass states decaying into pairs of muons and is designed to achieve high sensitivity to a broad range of models predicting leptonic jet signatures. With no excess observed over the background expectation, upper limits on the production cross section times branching fraction times acceptance are set, ranging from 0.1 to 0.5 pb at the 95 CL depending on event topology. In addition, the results are interpreted in several benchmark models in the context of supersymmetry with a new light dark sector exploring previously inaccessible parameter space

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ELKO fermions as dark matter candidates

et al. 2015

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We study the implications of the ELKO fermions as a cold dark matter candidate. Such fermions arise in theories that are not symmetric under the full Lorentz group. Although they do not carry electric charge, ELKOs can still couple to photons through a nonstandard interaction. They also couple to the Higgs but do not couple to other standard model particles. We impose limits on their coupling strength and the ELKO mass assuming that these particles give dominant contribution to the cosmological cold dark matter. We also determine limits imposed by the direct dark matter search experiments on the ELKO-photon and the ELKO-Higgs coupling. Furthermore we determine the limit imposed by the gamma ray bursts time delay observations on the ELKO-Higgs coupling. We find that astrophysical and cosmological considerations rule out the possibility that ELKO may contribute significantly as a cold dark matter candidate. The only allowed scenario in which it can contribute significantly as a dark matter candidate is that it was never in equilibrium with the cosmic plasma. We also obtain a relationship between the ELKO self-coupling and its mass by demanding it to be consistent with observations of dense cores in the galactic centers.

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A. Nayak

Publisher’s Note: Search for Dijet Resonances in 7 TeVppCollisions at CMS [Phys. Rev. Lett.105, 211801 (2010)]

Confronting nuclear equation of state in the presence of dark matter using GW170817 observation in relativistic mean field theory approach

Erratum: Search for the associated production of the Higgs boson with a top-quark pair

Search for light resonances decaying into pairs of muons as a signal of new physics

ELKO fermions as dark matter candidates

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