Non-relativistic susceptibility and a dark matter application

When thermal rate equations are derived for the evolution of slow variables, it is often practical to parametrize the right-hand side with chemical potentials. To close the system, the chemical potentials are subsequently re-expressed in terms of the slow variables, which involves the consideration...

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Veröffentlicht in:	Journal of cosmology and astroparticle physics 2019-10, Vol.2019 (10), p.78-78
Hauptverfasser:	Biondini, S., Kim, Seyong, Laine, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Calibration Computer simulation Dark matter Organic chemistry Relativism Relativistic effects
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container_title	Journal of cosmology and astroparticle physics
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creator	Biondini, S. Kim, Seyong Laine, M.
description	When thermal rate equations are derived for the evolution of slow variables, it is often practical to parametrize the right-hand side with chemical potentials. To close the system, the chemical potentials are subsequently re-expressed in terms of the slow variables, which involves the consideration of a “susceptibility”. Here we study a non-relativistic situation in which chemical potentials are large compared with the temperature, as is relevant for late-time pair annihilations in dark matter freeze-out. An order-of-magnitude estimate and a lattice simulation are presented for a susceptibility dominated by bound states of stop-like mediators. After this “calibration”, the formalism is applied to a model with Majorana singlet dark matter, confirming that masses up to the multi-TeV domain are viable in the presence of sufficient (though not beyond a limit) mass degeneracy in the dark sector.
doi_str_mv	10.1088/1475-7516/2019/10/078
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subjects	Calibration Computer simulation Dark matter Organic chemistry Relativism Relativistic effects
title	Non-relativistic susceptibility and a dark matter application
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