Reducing Number Fluctuations in an Ultracold Atomic Sample Using Faraday Rotation and Iterative Feedback
Date
2021
Authors
Thomas, Ryan
Otto, Susanne
Chilcott, Matthew
Deb, Amita Bikram
Kjaergaard, Niels
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American Physical Society
Abstract
We demonstrate a method to reduce number fluctuations in an ultracold atomic sample using real-time feedback. By measuring the Faraday rotation of an off-resonant probe laser beam with a pair of avalanche photodetectors in a polarimetric setup, we produce a proxy for the number of atoms in the sample. We iteratively remove a fraction of the excess atoms from the sample to converge on a target proxy value in a way that is insensitive to environmental perturbations and robust to errors in light polarization. Using absorption imaging for out-of-loop verification, we demonstrate a reduction in the number fluctuations from 3% to 0.45% for samples at a temperature of 16.4μK over the time scale of several hours, which is limited by temperature fluctuations, beam-pointing noise, and photon shot noise.
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Physical Review Applied
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Journal article
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Open Access
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