Atomic Interaction Effects on Electromagnetically Induced Transparency and Slow Light in Ultracold Bose Gas
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Abstract
We investigate electromagnetically induced transparency and slow group velocity of light in ultracold Bose gas with a two-photon Raman process. The properties of electromagnetically induced transparency and light speed can be changed by controlling the atomic interaction. Atomic interaction can be used as a knob to control the optical properties of atomic media. This can be realized in experiment by using the Feshbach resonance technique.
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HU Zheng-Feng, DU Chun-Guang, LI Dai-Jun, LI Shi-Qun. Atomic Interaction Effects on Electromagnetically Induced Transparency and Slow Light in Ultracold Bose Gas[J]. Chin. Phys. Lett., 2002, 19(12): 1805-1807.
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HU Zheng-Feng, DU Chun-Guang, LI Dai-Jun, LI Shi-Qun. Atomic Interaction Effects on Electromagnetically Induced Transparency and Slow Light in Ultracold Bose Gas[J]. Chin. Phys. Lett., 2002, 19(12): 1805-1807.
|
HU Zheng-Feng, DU Chun-Guang, LI Dai-Jun, LI Shi-Qun. Atomic Interaction Effects on Electromagnetically Induced Transparency and Slow Light in Ultracold Bose Gas[J]. Chin. Phys. Lett., 2002, 19(12): 1805-1807.
|
HU Zheng-Feng, DU Chun-Guang, LI Dai-Jun, LI Shi-Qun. Atomic Interaction Effects on Electromagnetically Induced Transparency and Slow Light in Ultracold Bose Gas[J]. Chin. Phys. Lett., 2002, 19(12): 1805-1807.
|
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