Improved limits for violations of local position invariance from atomic clock comparisons

Abstract

We compare two optical clocks based on the 2S1/2(F=0) 2D3/2(F=2) electric quadrupole (E2) and the 2S1/2(F=0) 2F7/2(F=3) electric octupole (E3) transition of 171Yb+ and measure the frequency ratio E3/E2=0.932\,829\,404\,530\,965\,376(32). We determine the transition frequency E3=642\,121\,496\,772\,645.10(8) Hz using two caesium fountain clocks. Repeated measurements of both quantities over several years are analyzed for potential violations of local position invariance. We improve by factors of about 20 and 2 the limits for fractional temporal variations of the fine structure constant α to 1.0(1.1)×10-18/yr and of the proton-to-electron mass ratio μ to -8(36)×10-18/yr. Using the annual variation of the Sun's gravitational potential at Earth , we improve limits for a potential coupling of both constants to gravity, (c2/α) (dα/d)=14(11)× 10-9 and (c2/μ) (dμ/d)=7(45)× 10-8.