New constraint on cosmological variation of the proton-to-electron mass ratio from Q0528-250

Abstract

Molecular hydrogen transitions in quasar spectra can be used to constrain variation in the proton-to-electron mass ratio, μ mp/me, at high redshifts (z 2). We present here an analysis of a new spectrum of the quasar Q0528-250, obtained on VLT/UVES (the Ultraviolet and Visual Echelle Spectrograph, on the Very Large Telescope), and analyse the well-known H2 absorber at z=2.811 in this spectrum. For the first time we detect HD (deuterated molecular hydrogen) in this system with a column density of 10(N/cm-2)=13.27 0.07; HD is sensitive to variation in μ, and so we include it in our analysis. Using 76 H2 and 7 HD transitions we constrain variation in μ from the current laboratory value to be μ/μ = (0.3 3.2stat 1.9sys)× 10-6, which is consistent with no cosmological variation in μ, as well as with previous results from other H2/HD absorbers. The main sources of systematic uncertainty relate to accurate wavelength calibration of the spectra and the re-dispersion of multiple telescope exposures onto the one pixel grid.