The Good Qualities of the Weak Axion
Abstract
The presence of a topological susceptibility in the electroweak sector of the Standard Model motivates the existence of a good quality weak axion aW, associated with the spontaneous breaking of B\!+\!L. Its anomalous couplings and tiny mass, generated from electroweak instantons, render aW photophobic. We find that the strongest bound on the associated decay constant, fW, stems from a loop-induced coupling to electrons, leading to fW 1000 TeV from stellar cooling. Spontaneous breaking of the abelian B\!+\!L symmetry induces proton decay via higher dimensional operators controlled by a new physics scale, . Existing Super-Kamiokande limits on these decay channels constrain the new physics scale to be 1012 GeV. The characteristic channel p e+ aW and other possible operators mediating interactions with the Standard Model fields yield signals which are not detectable within the allowed parameter space. Future proton decay searches at the next-generation of neutrino experiments offer the most promising avenues to test the good qualities of the weak axion paradigm.
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