Related papers: Quantum-feedback-controlled macroscopic quantum nonlocality in cavity optomechanics

Quantum-feedback-controlled macroscopic quantum nonlocality in cavity optomechanics

URL: http://arxiv.org/abs/2004.01830v1
Date: Sat, 4 Apr 2020 01:23:57 GMT
Title: Quantum-feedback-controlled macroscopic quantum nonlocality in cavity optomechanics
Authors: Yaqin Luo and Huatang Tan
Abstract summary: We propose a continuous measurement and feedback scheme to achieve strong Einstein-Podolsky-Rosen steering and Bell nonlocality. We analytically reveal that this is because the feedback drives the mechanical oscillators into a steady approximate two-mode squeezed vacuum state. It is found that Bell nonlocality is much more vulnerable to thermal noise than EPR steerable nonlocality.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this paper, we propose a continuous measurement and feedback scheme to achieve strong Einstein-Podolsky-Rosen (EPR) steering and Bell nonlocality of two macroscopic mechanical oscillators in cavity optomechanics. Our system consists of two optomechanical cavities in which two cavity fields are coupled to each other via a nondegenerate parametric downconversion. The two cavity output fields are subject to continuous Bell-like homodyne detection and the detection currents are fed back to drive the cavity fields. It is found that when the feedback is absent, the two mechanical oscillators can only be prepared in steady weakly entangled states which however do not display EPR steering and Bell nonlocality, due to the so-called 3 dB limit. But when the feedback is present, it is found that the mechanical entanglement is considerably enhanced such that strong mechanical steering and Bell nonlocality can be obtained in the steady-state regime. We analytically reveal that this is because the feedback drives the mechanical oscillators into a steady approximate two-mode squeezed vacuum state, with arbitrary squeezing in principle. It is shown that the feedback can also obviously improve the purity of the nonclassical mechanical states. The dependences of the mechanical quantum nonlocality on the feedback strength and thermal fluctuations are studied, and it is found that Bell nonlocality is much more vulnerable to thermal noise than EPR steerable nonlocality.

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