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

Journal Title

Journal ISSN

Volume Title

Publisher

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.

Description

Keywords

Citation

Source

Physical Review Applied

Type

Journal article

Book Title

Entity type

Access Statement

Open Access

License Rights

Restricted until