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Gravitational waves in models with multicritical-point principle
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- Authors
- Issue Date
- 2022-05-25
- Publisher
- Springer
- Citation
- The European Physical Journal C. Vol.82(5):481
- Abstract
- The multicritical-point principle (MPP) provides a natural explanation of the large hierarchy between the Planck and electroweak scales. We consider a scenario in which MPP is applied to the Standard Model extended by two real singlet scalar fields φ and S, and a dimensional transmutation occurs by the vacuum expectation value of φ. In this paper, we focus on the critical points that possess a Z2 symmetry S → −S and all the other fields are left invariant. Then S becomes a natural dark matter (DM) candidate.
Further, we concentrate on the critical points where φ does not possess further Z2 symmetry so that there is no cosmological domain-wall problem. Among such critical points, we focus on maximally critical one called CP-1234 that fix all the superrenormalizable parameters. We show that there remains a parameter region that satisfies the DM relic abundance, DM direct-detection bound and the current LHC constraints. In this region, we find a first-order phase transition in the early universe around the TeV-scale temperature. The resultant gravitational waves are predicted with a peak amplitude of O(10−12) at a frequency of 10−2−10−1 Hz, which can be tested with future space-based instruments such as DECIGO and BBO.
- ISSN
- 1434-6052
- Language
- English
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