Rydberg atoms with a reduced sensitivity to dc and low-frequency electric fields

Abstract

A non-resonant microwave dressing field at 38.465 GHz was used to eliminate the static electric dipole moment difference between the 49s1/2 and 48s1/2 Rydberg states of 87Rb in dc fields of approximately 1 V/cm. The reduced susceptibility to electric field fluctuations was measured using 2-photon microwave spectroscopy. An anomalous spectral doublet is attributed to polarization ellipticity in the dressing field. The demonstrated ability to inhibit static dipole moment differences --- while retaining sensitivity to high frequency fields --- is applicable to sensors and/or quantum devices using Rydberg atoms.