Litcius/Paper detail

Nano-Hertz gravitational waves from collapsing domain walls associated with freeze-in dark matter in light of pulsar timing array observations

Zhao Zhang, Chengfeng Cai, Yuhang Su, Shiyu Wang, Zhao-Huan Yu, H. H. Zhang

2023Physical review. D/Physical review. D.74 citationsDOIOpen Access PDF

Abstract

Evidence for a stochastic gravitational wave background in the nHz frequency band is recently reported by four pulsar timing array collaborations NANOGrav, EPTA, CPTA, and PPTA. It can be interpreted by gravitational waves from collapsing domain walls in the early universe. We assume such domain walls arising from the spontaneous breaking of a ${Z}_{2}$ symmetry in a scalar field theory, where a tiny ${Z}_{2}$-violating potential is required to make domain walls unstable. We propose that this ${Z}_{2}$-violating potential is radiatively induced by a feeble Yukawa coupling between the scalar field and a fermion field, which is also responsible for dark matter production via the freeze-in mechanism. Combining the pulsar timing array data and the observed dark matter relic density, we find that the model parameters can be narrowed down to small ranges.

Topics & Concepts

PhysicsGravitational wavePulsarScalar fieldDark matterUniverseYukawa potentialScalar (mathematics)Gravitational fieldQuantum electrodynamicsAstrophysicsParticle physicsClassical mechanicsMathematicsGeometryCosmology and Gravitation TheoriesDark Matter and Cosmic PhenomenaPulsars and Gravitational Waves Research