Excitations of optomechanically driven Bose-Einstein condensates in a cavity： Photodetection measurements

We present a detailed study to analyze the Dicke quantum phase transition within the thermodynamic limit for an optomechanically driven Bose-Einstein condensate in a cavity. The photodetection-based quantum optical measurements have been performed to study the dynamics and excitations of this optome...

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Veröffentlicht in:	Chinese physics B 2014-10, Vol.23 (10), p.32-44
Hauptverfasser:	Aggarwal, Neha, Mahajan, Sonam, Bhattacherjee, Aranya B., Mohan, Man
Format:	Artikel
Sprache:	eng
Schlagworte:	Bose-Einstein condensates Dynamical systems Dynamics Eigenvalues Excitation Fluorescence Holes Phase shift Spectra 光学测量光电检测激励爱因斯坦凝聚特征值分析玻色荧光光谱驱动
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container_title	Chinese physics B
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creator	Aggarwal, Neha Mahajan, Sonam Bhattacherjee, Aranya B. Mohan, Man
description	We present a detailed study to analyze the Dicke quantum phase transition within the thermodynamic limit for an optomechanically driven Bose-Einstein condensate in a cavity. The photodetection-based quantum optical measurements have been performed to study the dynamics and excitations of this optomechanical Dicke system. For this, we discuss the eigenvalue analysis, fluorescence spectrum and the homodyne spectrum of the system. It has been shown that the normal phase is negligibly affected by the mechanical mode of the mirror while it has a significant effect in the superradiant phase. We have observed that the eigenvalues and the spectra both exhibit distinct features that can be identified with the photonic, atomic and phononic branches. In the fluorescence spectra, we further observe an asymmetric coherent energy exchange between the three degrees of freedom of the system in the superradiant phase arising as a result of optomechanical interaction and Bloch-Siegert shift.
doi_str_mv	10.1088/1674-1056/23/10/100305
format	Article
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The photodetection-based quantum optical measurements have been performed to study the dynamics and excitations of this optomechanical Dicke system. For this, we discuss the eigenvalue analysis, fluorescence spectrum and the homodyne spectrum of the system. It has been shown that the normal phase is negligibly affected by the mechanical mode of the mirror while it has a significant effect in the superradiant phase. We have observed that the eigenvalues and the spectra both exhibit distinct features that can be identified with the photonic, atomic and phononic branches. 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subjects	Bose-Einstein condensates Dynamical systems Dynamics Eigenvalues Excitation Fluorescence Holes Phase shift Spectra 光学测量光电检测激励爱因斯坦凝聚特征值分析玻色荧光光谱驱动
title	Excitations of optomechanically driven Bose-Einstein condensates in a cavity： Photodetection measurements
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