Quantum correlations of quadratic optomechanical oscillator

Quantum correlations of quadratic optomechanical oscillator

The quantum optomechanical system serves as an interface for coupling between photons, excitons, and mechanical oscillations. We use the quantum Langevin approach to study a hybrid optomechanical system that contains a single undoped semiconductor quantum well in a cavity, where one of its mirrors i...

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Veröffentlicht in:Journal of the Optical Society of America. B, Optical physics Optical physics, 2014-10, Vol.31 (10), p.2390-2398
Hauptverfasser: Singh, S. K., Raymond Ooi, C. H.
Format: Artikel
Sprache:eng
Schlagworte:
Correlation
Excitons
Holes
Joining
Mathematical analysis
Membranes
Oscillators
Photons
Semiconductors
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Zusammenfassung:The quantum optomechanical system serves as an interface for coupling between photons, excitons, and mechanical oscillations. We use the quantum Langevin approach to study a hybrid optomechanical system that contains a single undoped semiconductor quantum well in a cavity, where one of its mirrors is a thin dielectric membrane having quadratic response to the cavity fields. A decorrelation method is employed to solve for a large number of coupled equations. Transient mean numbers of cavity photons, moving membranes, and excitons that provide dynamical behavior are computed. We obtain the two-boson second-order correlation functions for the cavity field and the membrane oscillator, and their cross correlations that provide nonclassical quantum statistical properties and useful insights into the quadratic optomechanical system.
ISSN:0740-3224
1520-8540
DOI:10.1364/JOSAB.31.002390