Radio-Frequency Field-Induced Quantum Interference Effects in Cold Atoms
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Abstract
We propose constructing a quantum interference configuration for cold atoms in a magneto-optical trap by applying a radio frequency field, which coherently couples adjacent Zeeman sublevels, in combination with a repumping laser field. One effect of this interference is that a dip exists in the absorption of the repumping light when the radio frequency is scanned. Our prediction has been indirectly detected through the fluorescence of cold atoms in a preliminary experiment.
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LONG Quan, ZHOU Shu-Yu, ZHOU Shan-Yu, WANG Yu-Zhu. Radio-Frequency Field-Induced Quantum Interference Effects in Cold Atoms[J]. Chin. Phys. Lett., 2001, 18(11): 1470-1472.
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LONG Quan, ZHOU Shu-Yu, ZHOU Shan-Yu, WANG Yu-Zhu. Radio-Frequency Field-Induced Quantum Interference Effects in Cold Atoms[J]. Chin. Phys. Lett., 2001, 18(11): 1470-1472.
|
LONG Quan, ZHOU Shu-Yu, ZHOU Shan-Yu, WANG Yu-Zhu. Radio-Frequency Field-Induced Quantum Interference Effects in Cold Atoms[J]. Chin. Phys. Lett., 2001, 18(11): 1470-1472.
|
LONG Quan, ZHOU Shu-Yu, ZHOU Shan-Yu, WANG Yu-Zhu. Radio-Frequency Field-Induced Quantum Interference Effects in Cold Atoms[J]. Chin. Phys. Lett., 2001, 18(11): 1470-1472.
|
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