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Effect of atomic noise on optical sqeezing via polarization self-rotation in a thermal vapor cell

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Hsu, Magnus
Hetet, Gabriel
Peng, Amy
Harb, Charles
Bachor, Hans
Johnsson, Mattias
Hope, Joseph
Lam, Ping Koy
Dantan, A.
Cviklinski, J.

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American Physical Society

Abstract

The traversal of an elliptically polarized optical field through a thermal vapor cell can give rise to a rotation of its polarization axis. This process, known as polarization self-rotation (PSR), has been suggested as a mechanism for producing squeezed light at atomic transition wavelengths. We show results of the characterization of PSR in isotopically enhanced rubidium-87 cells, performed in two independent laboratories. We observed that, contrary to earlier work, the presence of atomic noise in the thermal vapor overwhelms the observation of squeezing. We present a theory that contains atomic noise terms and show that a null result in squeezing is consistent with this theory.

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Physical Review A: Atomic, Molecular and Optical Physics

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2037-12-31