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Master-equation treatment of nonlinear optomechanical systems with optical loss

Sofia Qvarfort, Michael R. Vanner, P. F. Barker, David Edward Bruschi

2021Physical review. A/Physical review, A25 citationsDOIOpen Access PDF

Abstract

Open-system dynamics play a key role in the experimental and theoretical study of cavity optomechanical systems. In many cases, the quantum Langevin equations have enabled excellent models for optical decoherence, yet a master-equation approach to the fully nonlinear optomechanical Hamiltonian has thus far proven more elusive. To address this outstanding question and broaden the mathematical tool set available, we derive a solution to the Lindblad master equation that models optical decoherence for a system evolving with the nonlinear optomechanical Hamiltonian. The method combines a Lie-algebra solution to the unitary dynamics with a vectorization of the Lindblad equation, and we demonstrate its applicability by considering the preparation of optical cat states via the optomechanical nonlinearity in the presence of optical loss. Our results provide a direct way of analytically assessing the impact of optical decoherence on the optomechanical intracavity state.

Topics & Concepts

Quantum decoherenceMaster equationHamiltonian (control theory)Lindblad equationPhysicsNonlinear systemQuantum master equationQuantumUnitary stateQuantum mechanicsClassical mechanicsStatistical physicsMathematicsPolitical scienceLawMathematical optimizationMechanical and Optical ResonatorsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies
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