The dispersive properties of an excited-doubletfour-level atomic system

doi:10.1088/1674-1056/17/9/035

Abstract

Abstract We have investigated the dispersive properties of excited-doublet four-level atoms interacting with a weak probe field and an intense coupling laser field. We have derived an analytical expression of the dispersion relation for a general excited-doublet four-level atomic system subject to a one-photon detuning. The numerical results demonstrate that for a typical rubidium $\rm {D1}$ line configuration, due to the unequal dipole moments for the transitions of each ground state to double excited states, generally there exists no exact dark state in the system. Close to the two-photon resonance, the probe light can be absorbed or gained and propagate in the so-called superluminal form. This system may be used as an optical switch.

Keywords: photon-atom interaction susceptibility quantum interference phenomena

Received: 07 November 2007
Revised: 24 March 2008
Accepted manuscript online:

PACS:	32.80.-t	(Photoionization and excitation)
	42.50.Ar

Fund: Project supported by the Knowledge Innovation Program (KIP) of the Chinese Academy of Sciences (Grant No KGCX3-SYW-405) and the National Fundamental Research Program of China (Grant Nos 2005CB724507 and 2006CB921202).

Cite this article:

Hu Zheng-Feng(胡正峰), Deng Jian-Liao(邓见辽), and Wang Yu-Zhu(王育竹) The dispersive properties of an excited-doubletfour-level atomic system 2008 Chin. Phys. B 17 3358

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