Heavier W boson, dark matter and gravitational waves from strings in an SO(10) axion model

Abstract

Inspired by the recent determination of the W-boson mass by the CDF collaboration, we revisit an SO(10) axion model in which a scalar SU(2)L triplet field with zero hypercharge is known to acquire a non-zero VEV through its mixing with the Standard Model Higgs doublet. The triplet VEV provides a sizable contribution to the W mass, which helps in significantly lowering the 7σ discrepancy between the Standard Model prediction and the higher CDF value for mW. We show that the relatively light triplet mass ( (1-50) TeV) is compatible with gauge coupling unification and observable proton decay. An unbroken Z2 gauge symmetry, coupled with the presence of two fermionic 10-plets required to resolve the axion domain wall problem, means that both axions and a stable intermediate mass ( 109-1010 GeV) fermion are plausible dark matter candidates. We also display the gravitational wave spectrum from the intermediate scale topologically stable cosmic strings predicted by the model.

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