Scalar Aharonov-Bohm phase in Ramsey atom interferometry under time-varying potential

Abstract

In a Ramsey atom interferometer excited by two electromagnetic fields, if atoms are under a time-varying scalar potential during the interrogation time, the phase of the Ramsey fringes shifts owing to the scalar Aharonov-Bohm effect. The phase shift was precisely examined using a Ramsey atom interferometer with a two-photon Raman transition under the second-order Zeeman potential, and a formula for the phase shift was derived. Using the derived formula, the frequency shift due to the scalar Aharonov-Bohmeffect in the frequency standards utilizing the Ramsey atom interferometer was discussed.