Photon Mass Bound Destroyed by Vortices
Abstract
The Particle Data Group gives an upper bound on the photon mass m < 2 × 10-16eV from a laboratory experiment and lists, but does not adopt, an astronomical bound m < 3 × 10-27eV, both of which are based on the plausible assumption of large galactic vector-potential. We argue that the interpretations of these experiments should be changed, which alters significantly the bounds on m. If m arises from a Higgs effect, both limits are invalid because the Proca vector-potential of the galactic magnetic field may be neutralized by vortices giving a large-scale magnetic field that is effectively Maxwellian. In this regime, experiments sensitive to the Proca potential do not yield a useful bound on m. As a by-product, the non-zero photon mass from Higgs effect predicts generation of a primordial magnetic field in the early universe. If, on the other hand, the galactic magnetic field is in the Proca regime, the very existence of the observed large-scale magnetic field gives m-1 1kpc, or m 10-26eV.
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