Investigation of the gravitational-potential dependence of the fine-structure constant using atomic dysprosium

Radio-frequency E1 transitions between nearly degenerate, opposite-parity levels of atomic dysprosium (Dy) were monitored over an 8-month period to search for a variation in the fine-structure constant alpha. During this time period, data were taken at different points in the gravitational potential of the Sun. The data are fitted to the variation in the gravitational potential yielding a value of (-8.7 +/- 6.6)x10(-6) for k(alpha), the variation of alpha in a changing gravitational potential. This value gives the first laboratory limit independent of assumptions regarding other fundamental constants. In addition, our value of k(alpha) combined with other experimental constraints is used to extract the first limits on k(e) and k(q). These coefficients characterize the variation of m(e)/m(p) and m(q)/m(p) in a changing gravitational potential, where m(e), m(p), and m(q) are electron, proton, and quark masses. The results are k(e)=(4.9 +/- 3.9)x10(-5) and k(q)=(6.6 +/- 5.2)x10(-5). All these results indicate the absence of significant variation at the present level of sensitivity.