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

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

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

Date

2006

Authors

Hsu, Magnus

Hetet, Gabriel

Peng, Amy

Harb, Charles

Bachor, Hans

Johnsson, Mattias

Hope, Joseph

Lam, Ping Koy

Dantan, A.

Cviklinski, J.

Publisher

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.