Deflection of an Atomic Beam in a Large Period Quantized Standing Light Wave

Chin. Phys. Lett.

1994, Vol. 11

Issue (12): 727-729 DOI:

Original Articles

Deflection of an Atomic Beam in a Large Period Quantized Standing Light Wave

WANG Xiaoguang;SUN Changpu

Institute of Theoretical Physics, Northeastern Normal University, Changchun 130024

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WANG Xiaoguang, SUN Changpu 1994 Chin. Phys. Lett. 11 727-729

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Abstract By using the Wei-Norman's method, the deflection of an atomic beam with a large period quantized standing light wave is analyzed for the case with two-level atom and single-mode cavity field. It is concluded that after passing through the standing light wave in cavity, the atomic beam is split into infinite beams symmetrically, and each momentum shift for a split component is proportional to the interaction time. It is also shown that the output momentum distribution of atoms is sensitive to the statistical properties of the cavity field.

Keywords: 03.65.-w 32.80.-t 42.50.Vk

Published: 01 December 1994

PACS:	03.65.-w	(Quantum mechanics)
	32.80.-t	(Photoionization and excitation)
	42.50.Vk

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y1994/V11/I12/0727

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