Laboratory Limits on Temporal Variations of Fundamental Constants: An Update

Abstract

Precision comparisons of different atomic frequency standards over a period of a few years can be used for a sensitive search for temporal variations of fundamental constants. We present recent frequency measurements of the 688 THz transition in the 171Yb+ ion. For this transition frequency a record over six years is now available, showing that a possible frequency drift relative to a cesium clock can be constrained to (-0.540.97) Hz/yr, i.e. at the level of 2·10-15 per year. Combined with precision frequency measurements of an optical frequency in 199Hg+ and of the hyperfine ground state splitting in 87Rb a stringent limit on temporal variations of the fine structure constant α: dα /dt= (-0.260.39)· 10-15 yr-1 and a model-dependent limit for variations of the proton-to-electron mass ratio μ in the present epoch can be derived: d μ/dt = (-1.2 2.2)· 10-15 yr-1. We discuss these results in the context of astrophysical observations that apparently indicate changes in both of these constants over the last 5--10 billion years.

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