Quantum-mechanical interference effects in the spontaneous-emission spectrum of a driven atom

Shi-Yao Zhu, Lorenzo M. Narducci, and Marlan O. Scully
Phys. Rev. A 52, 4791 – Published 1 December 1995
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Abstract

We study the influence of quantum interference on the spontaneous emission from an excited two-level atom when either the atomic upper or lower level is coupled by a coherent field to a third, usually higher-lying, state. In the case of the upper level coupling, destructive quantum interference between two competing decay amplitudes produces a dark line in the emission spectrum, a phenomenon that should not be confused with the well known population trapping, and a narrowing of one of the two side lobes that make up the spectral profile. Quantum interference is absent, instead, in the case of the lower level coupling, and the spectrum modified by the external driving field is just the incoherent superposition of two Lorentzian lines. We suggest a physical interpretation of these results. In addition, we compare the analytic predictions of the simplest nontrivial versions of these models with more realistic but nonanalytic descriptions and show, numerically, that the interference effects persist in the upper level case even when additional complications are taken into account.

  • Received 26 July 1995

DOI:https://doi.org/10.1103/PhysRevA.52.4791

©1995 American Physical Society

Authors & Affiliations

Shi-Yao Zhu

  • Department of Physics, Hong Kong Baptist University, Hong Kong

Lorenzo M. Narducci

  • Department of Physics, Drexel University, Philadelphia, Pennsylvania 19104

Marlan O. Scully

  • Department of Physics, Texas A&M University, College Station, Texas 77843

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Issue

Vol. 52, Iss. 6 — December 1995

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