## Coherent field-controlled single-photon transmission in the atom-cavity-waveguide coupled system |

JOSA B, Vol. 30, Issue 3, pp. 649-655 (2013)

http://dx.doi.org/10.1364/JOSAB.30.000649

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### Abstract

Starting from the semiclassical theory of light–matter interaction, we have theoretically investigated the substantial influences of two coherent driving fields on manipulating the single-photon transmission probability in the extensively studied atom-cavity-waveguide coupled system. The results strictly demonstrate that under the relatively large photon-cavity detuning and moderately strong driving fields, the single-photon transmission probability increases remarkably from the original 0 to 1 by controlling the coherent fields in the nondissipative environment, which manifests the manipulation of the coherent fields as a sort of highly controllable external tool to efficiently act as an experimentally available all-optical quantum switching. In contrast, the behavior independent from variation of coherent fields and characterized by the stationary transmission spectrum appears under the photon-atom on-resonance condition. Similar properties can also be observed in the dissipative environment. These distinct characteristics essentially reveal some significant functionalities of coherent field control in influencing the single-photon transmission spectrum, which may have potential applications in designing efficient photonic devices.

© 2013 Optical Society of America

**OCIS Codes**

(270.1670) Quantum optics : Coherent optical effects

(270.5585) Quantum optics : Quantum information and processing

**ToC Category:**

Quantum Optics

**History**

Original Manuscript: November 12, 2012

Revised Manuscript: December 27, 2012

Manuscript Accepted: January 11, 2013

Published: February 18, 2013

**Citation**

Xiang-yang Yu, Jian-hong Li, and Xiao-bin Li, "Coherent field-controlled single-photon transmission in the atom-cavity-waveguide coupled system," J. Opt. Soc. Am. B **30**, 649-655 (2013)

http://www.opticsinfobase.org/josab/abstract.cfm?URI=josab-30-3-649

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