An observational determination of the proton to electron mass ratio in the early Universe
Journal article, 2009

In an effort to resolve the discrepancy between two measurements of the fundamental constant μ, the proton to electron mass ratio, at early times in the universe we reanalyze the same data used in the earlier studies. Our analysis of the molecular hydrogen absorption lines in archival Very Large Telescope/Ultraviolet and Visible Echelle Spectrometer (UVES) spectra of the damped Lyman alpha systems in the quasi-stellar objects Q0347-383 and Q0405-443 yields a combined measurement of a Δμ/μ value of (–7 ± 8) × 10–6, consistent with no change in the value of μ over a time span of 11.5 Gyr. Here, we define Δμ as (μ z – μ0) where μ z is the value of μ at a redshift of z and μ0 is the present-day value. Our null result is consistent with the recent measurements of King et al., Δμ/μ = (2.6 ± 3.0) × 10–6, and inconsistent with the positive detection of a change in μ by Reinhold et al. Both of the previous studies and this study are based on the same data but with differing analysis methods. Improvements in the wavelength calibration over the UVES pipeline calibration is a key element in both of the null results. This leads to the conclusion that the fundamental constant μ is unchanged to an accuracy of 10–5 over the last 80% of the age of the universe, well into the matter dominated epoch. This limit provides constraints on models of dark energy that invoke rolling scalar fields and also limits the parameter space of supersymmetric or string theory models of physics. New instruments, both planned and under construction, will provide opportunities to greatly improve the accuracy of these measurements.

fundamental constants

cosmology

Author

Rodger I. Thompson

Jill Bechtold

John H Black

Chalmers, Department of Radio and Space Science, Radio Astronomy and Astrophysics

Daniel Eisenstein

Xiaohui Fan

R.C. Kennicutt

Carlos Martins

J. X. Prochaska

Yancey L. Shirley

Astrophysical Journal

0004-637X (ISSN) 1538-4357 (eISSN)

Vol. 703 2009 October 1 1648 - 1662

Subject Categories

Astronomy, Astrophysics and Cosmology

Atom and Molecular Physics and Optics

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Created

10/7/2017