Related papers: Manipulating the direction of one-way steering in an optomechanical ring cavity

Manipulating the direction of one-way steering in an optomechanical ring cavity

URL: http://arxiv.org/abs/2403.16346v1
Date: Mon, 25 Mar 2024 00:44:56 GMT
Title: Manipulating the direction of one-way steering in an optomechanical ring cavity
Authors: Jamal El Qars, Benachir Boukhris, Ahmed Tirbiyine, Abdelaziz Labrag,
Abstract summary: Quantum steering refers to the apparent possibility of exploiting nonseparable quantum correlations to remotely influence the quantum state of an observer via local measurements. Here, we study Gaussian quantum steering between two mechanical modes in an optomechanical ring cavity. We show that the state of the two considered modes can exhibit two-way steering and even one-way steering.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Quantum steering refers to the apparent possibility of exploiting nonseparable quantum correlations to remotely influence the quantum state of an observer via local measurements. Different from entanglement and Bell nonlocality, quantum steering exhibits an inherent asymmetric property, which makes it relevant for many asymmetric quantum information processing tasks. Here, we study Gaussian quantum steering between two mechanical modes in an optomechanical ring cavity. Using experimentally feasible parameters, we show that the state of the two considered modes can exhibit two-way steering and even one-way steering. Instead of using unbalanced losses or noises, we propose a simple practical way to control the direction of one-way steering. A comparative study between the steering and entanglement of the studied modes shows that both steering and entanglement undergo a sudden death-like behavior. In particular, steering is found more fragile against thermal noise remaining constantly upper bounded by entanglement. The proposed scheme may be meaningful for one-sided device-independent quantum key distribution, where the security of such protocol depends fundamentally on the direction of steering.

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