Author:
Chiang Cheng-Wei,Lu Bo-Qiang
Abstract
Abstract
We investigate the gravitational waves (GWs) produced from the Peccei-Quinn (PQ) phase transition associated with the clockwork axion. The PQ phase transition can be first-order when the dimension-6 operator is included into the scalar potential. The GWs from the PQ phase transition at scale in the range of 103-106 GeV are detectable for the BBO and ALIA interferometers. The LISA and Taiji interferometers can probe the GWs from the PQ scale f ≤ 104 GeV, while the GW signals from the scale f ≥ 105 GeV can be detected by the ground-based GW observatories ET and CE. We find that the parameter space κm
∼ 0.06-0.001, κl
∼ 0.04-0.001, and ε ∼ 0.1-0.01 at the scale f = 105 GeV and most of the parameter regions at the scale f = 106 GeV
have been excluded by the LIGO O2 run. The LIGO O3 and design phases can further probe the remaining parameter space.
We show that the GWs from the annihilation of domain walls with a PQ scale f ≃ 2 × 105 GeV can induce the
stochastic signals with the right amplitude for the NANOGrav 12.5-year observations, but having a steeper spectral slope than the observations.
The LIGO O3 run has the opportunity of detecting the GW signals from the first-order PQ phase transition around this scale.
Subject
Astronomy and Astrophysics
Cited by
23 articles.
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