-Enhanced Gray Molasses Cooling of 85Rb Atoms in Tweezers Using the D2 Line
Abstract
We demonstrate the implementation of -enhanced gray molasses cooling on the D2 line of 85Rb atoms in an optical tweezer array. This technique yields lower atomic temperatures of 4.0(2) μK compared to red-detuned polarization gradient cooling, and consequently extends the T2* coherence time of the hyperfine clock qubit by a factor of 1.5. The method is alignment-free and can be readily implemented on laser beams used for magneto-optical trapping, as it only requires frequency and phase modulation control. Our experimental observations are corroborated by a numerical model based on a semi-classical force approach extended to a four-level system, including two hyperfine states of the upper manifold that are 120 MHz apart.
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