On the Stability of Fundamental Couplings in the Galaxy
arXiv:1508.06083 · doi:10.1016/j.physletb.2015.08.018
Abstract
Astrophysical tests of the stability of Nature's fundamental couplings are a key probe of the standard paradigms in fundamental physics and cosmology. In this report we discuss updated constraints on the stability of the fine-structure constant $α$ and the proton-to-electron mass ratio $μ=m_p/m_e$ within the Galaxy. We revisit and improve upon the analysis by Truppe {\it et al.} by allowing for the possibility of simultaneous variations of both couplings and also by combining them with the recent measurements by Levshakov {\it et al.} By considering representative unification scenarios we find no evidence for variations of $α$ at the 0.4 ppm level, and of $μ$ at the 0.6 ppm level; if one uses the Levshakov bound on $μ$ as a prior, the$α$ bound is improved to 0.1 ppm. We also highlight how these measurements can constrain (and discriminate among) several fundamental physics paradigms.
7 pages, 1 figure