Interferometric thermometry of a single sub-Doppler cooled atom

Abstract

Efficient self-interference of single-photons emitted by a sideband-cooled Barium ion is demonstrated. First, the technical tools for performing efficient coupling to the quadrupolar transition of a single 138Ba+ ion are presented. We show efficient Rabi oscillations of the internal state of the ion using a highly stabilized 1.76 μ m fiber laser resonant with the S1/2-D5/2 transition. We then show sideband cooling of the ion's motional modes and use it as a means to enhance the interference contrast of the ion with its mirror-image to up to 90%. Last, we measure the dependence of the self-interference contrast on the mean phonon number, thereby demonstrating the potential of the set-up for single-atom thermometry close to the motional ground state.