We discuss using a tabletop ion interferometer to search for deviations from Coulomb’s inverse-square law. Such deviations would result from nonclassical effects such as a nonzero photon rest mass. We discuss the theory behind the proposed measurement, explain which fundamental, experimentally controllable parameters are the relevant figures of merit, and calculate the expected performance of such a device in terms of these parameters. The sensitivity to deviations in the exponent of the inverse-square law is predicted to be a few times ${10}^{-22}$, an improvement by 5 orders of magnitude over current experiments. It could measure a nonzero photon rest mass smaller than $9\times {10}^{-50}\mathrm{grams}$, nearly 100 times smaller than current laboratory experiments.

• Received 30 June 2006

DOI:https://doi.org/10.1103/PhysRevLett.99.200401