Electromagnetically induced transparency and slow light in quantum degenerate atomic gases

H. H. Jen; Bo Xiong; Ite A. Yu; Daw-Wei Wang

doi:10.1364/JOSAB.30.002855

Journal of the Optical Society of America B
Vol. 30,
Issue 11,
pp. 2855-2863
(2013)
•https://doi.org/10.1364/JOSAB.30.002855

Electromagnetically induced transparency and slow light in quantum degenerate atomic gases

H. H. Jen, Bo Xiong, Ite A. Yu, and Daw-Wei Wang

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H. H. Jen, Bo Xiong, Ite A. Yu, and Daw-Wei Wang, "Electromagnetically induced transparency and slow light in quantum degenerate atomic gases," J. Opt. Soc. Am. B 30, 2855-2863 (2013)

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- Atomic and Molecular Physics
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About this Article
History
- Original Manuscript: June 19, 2013
- Revised Manuscript: August 15, 2013
- Manuscript Accepted: September 15, 2013
- Published: October 10, 2013

Abstract

We systematically investigate the electromagnetically induced transparency (EIT) and slow light properties in ultracold Bose and Fermi gases. It shows a very different property from the classical theory, which assumes frozen atomic motion. For example, the speed of light inside the atomic gases can be changed significantly near the Bose–Einstein condensation temperature, while the presence of the Fermi sea can destroy the EIT effect even at zero temperature. From an experimental point of view, such quantum EIT property is mostly manifested in the counterpropagating excitation schemes in either the low-lying Rydberg transition with a narrow linewidth or in the D2 transitions with a weak coupling field. We further investigate the interaction effects on the EIT for a weakly interacting Bose–Einstein condensate, showing an inhomogeneous broadening of the EIT profile and nontrivial change of the light speed due to the quantum depletion other than mean-field energy shifts.

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