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000616514 245__ $$aHunting WIMPs with LISA: correlating dark matter and gravitational wave signals
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000616514 520__ $$aThe thermal freeze-out mechanism in its classical form is tightly connected to physicsbeyond the Standard Model around the electroweak scale, which has been the target of enormousexperimental efforts. In this work we study a dark matter model in which freeze-out is triggeredby a strong first-order phase transition in a dark sector, and show that this phase transitionmust also happen close to the electroweak scale, i.e. in the temperature range relevant forgravitational wave searches with the LISA mission. Specifically, we consider the spontaneousbreaking of a U(1)′ gauge symmetry through the vacuum expectation value of a scalar field,which generates the mass of a fermionic dark matter candidate that subsequently annihilates intodark Higgs and gauge bosons. In this set-up the peak frequency of the gravitational wavebackground is tightly correlated with the dark matter relic abundance, and imposing the observedvalue for the latter implies that the former must lie in the milli-Hertz range. A peculiar featureof our set-up is that the dark sector is not necessarily in thermal equilibrium with the StandardModel during the phase transition, and hence the temperatures of the two sectors evolveindependently. Nevertheless, the requirement that the universe does not enter an extended periodof matter domination after the phase transition, which would strongly dilute any gravitationalwave signal, places a lower bound on the portal coupling that governs the entropy transfer betweenthe two sectors. As a result, the predictions for the peak frequency of gravitational waves in theLISA band are robust, while the amplitude can change depending on the initial dark sectortemperature.
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000616514 650_7 $$2INSPIRE$$agravitational radiation: frequency
000616514 650_7 $$2INSPIRE$$ascale: electroweak interaction
000616514 650_7 $$2INSPIRE$$asymmetry: gauge
000616514 650_7 $$2INSPIRE$$afreeze-out: thermal
000616514 650_7 $$2INSPIRE$$afermion: dark matter
000616514 650_7 $$2INSPIRE$$adark matter: relic density
000616514 650_7 $$2INSPIRE$$agravitational radiation: background
000616514 650_7 $$2INSPIRE$$afermion: mass
000616514 650_7 $$2INSPIRE$$afield theory: scalar
000616514 650_7 $$2INSPIRE$$acritical phenomena
000616514 650_7 $$2INSPIRE$$atemperature
000616514 650_7 $$2INSPIRE$$aLISA
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000616514 650_7 $$2INSPIRE$$aspontaneous symmetry breaking
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000616514 650_7 $$2INSPIRE$$adark matter: annihilation
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000616514 7001_ $$aGonzalo, Tomás E.$$b1
000616514 7001_ $$aKahlhoefer, Felix$$b2
000616514 7001_ $$00000-0003-0960-1489$$aMatuszak, Jonas$$b3$$eCorresponding author
000616514 7001_ $$0P:(DE-H253)PIP1098582$$aTasillo, Carlo$$b4
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000616514 999C5 $$1Höche$$2Crossref$$9-- missing cx lookup --$$a10.1088/1475-7516/2021/03/009$$tJCAP$$v03$$y2021
000616514 999C5 $$1Lewicki$$2Crossref$$9-- missing cx lookup --$$a10.1140/epjc/s10052-023-11241-3$$p109 -$$tEur. Phys. J. C$$v83$$y2023
000616514 999C5 $$1Ellis$$2Crossref$$9-- missing cx lookup --$$a10.1088/1475-7516/2020/11/020$$tJCAP$$v11$$y2020
000616514 999C5 $$1Ellis$$2Crossref$$9-- missing cx lookup --$$a10.1088/1475-7516/2019/06/024$$tJCAP$$v06$$y2019
000616514 999C5 $$1Arcadi$$2Crossref$$9-- missing cx lookup --$$a10.1007/JHEP08(2019)050$$p050 -$$tJHEP$$v08$$y2019
000616514 999C5 $$1De Romeri$$2Crossref$$9-- missing cx lookup --$$a10.1007/JHEP10(2020)137$$p137 -$$tJHEP$$v10$$y2020