Litcius/Paper detail

Pseudo-Goldstone dark matter: gravitational waves and direct-detection blind spots

Tommi Alanne, Nico Benincasa, Matti Heikinheimo, Kristjan Kannike, Venus Keus, Niko Koivunen, Kimmo Tuominen

2020Journal of High Energy Physics31 citationsDOIOpen Access PDF

Abstract

A bstract Pseudo-Goldstone dark matter is a thermal relic with momentum-suppressed direct-detection cross section. We study the most general model of pseudo-Goldstone dark matter arising from the complex-singlet extension of the Standard Model. The new U(1) symmetry of the model is explicitly broken down to a CP-like symmetry stabilising dark matter. We study the interplay of direct-detection constraints with the strength of cosmic phase transitions and possible gravitational-wave signals. While large U(1)-breaking interactions can generate a large direct-detection cross section, there are blind spots where the cross section is suppressed. We find that sizeable cubic couplings can give rise to a first-order phase transition in the early universe. We show that there exist regions of the parameter space where the resulting gravitational-wave signal can be detected in future by the proposed Big Bang Observer detector.

Topics & Concepts

PhysicsDark matterGravitational waveObserver (physics)Weakly interacting massive particlesScalar field dark matterSymmetry (geometry)Standard Model (mathematical formulation)Parameter spaceAstrophysicsGravitationCOSMIC cancer databasePhase transitionExtension (predicate logic)CosmologyTheoretical physicsSymmetry breakingParticle physicsMassive particlePhase (matter)Hidden sectorDark energyThermalSpace (punctuation)Cosmic stringExtra dimensionsPrimordial black holePhase spaceHot dark matterLight dark matterDark fluidSIGNAL (programming language)Dark Matter and Cosmic PhenomenaPulsars and Gravitational Waves ResearchCosmology and Gravitation Theories