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Decoupling light and matter: permanent dipole moment induced collapse of Rabi oscillations

Rabi oscillations is a key phenomenon among the variety of quantum optical effects that manifests itself in the periodic oscillations of a two-level system between the ground and excited states when interacting with electromagnetic field. Commonly, the rate of these oscillations scales proportionall...

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Published in:	arXiv.org 2016-11
Main Authors:	Baranov, Denis G, Petrov, Mihail I, Krasnok, Alexander E
Format:	Article
Language:	English
Subjects:	Collapse Decoupling Dipole moments Electric fields Electromagnetic fields Emitters Oscillations
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creator	Baranov, Denis G Petrov, Mihail I Krasnok, Alexander E
description	Rabi oscillations is a key phenomenon among the variety of quantum optical effects that manifests itself in the periodic oscillations of a two-level system between the ground and excited states when interacting with electromagnetic field. Commonly, the rate of these oscillations scales proportionally with the magnitude of the electric field probed by the two-level system. Here, we investigate the interaction of light with a two-level quantum emitter possessing permanent dipole moments. The semi-classical approach to this problem predicts slowing down and even full suppression of Rabi oscillations due to asymmetry in diagonal components of the dipole moment operator of the two-level system. We consider behavior of the system in the fully quantized picture and establish the analytical condition of Rabi oscillations collapse. These results for the first time emphasize the behavior of two-level systems with permanent dipole moments in the few photon regime, and suggest observation of novel quantum optical effects.
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issn	2331-8422
language	eng
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source	Publicly Available Content Database
subjects	Collapse Decoupling Dipole moments Electric fields Electromagnetic fields Emitters Oscillations
title	Decoupling light and matter: permanent dipole moment induced collapse of Rabi oscillations
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