带有克尔介质的二阶耦合电光机械系统中的量子效应

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
Sonam Mahajan, Neha Aggarwal, Madhav Kumar Singh, Aranya B. Bhattacherjee
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引用次数: 0

摘要

我们提出了一种混合量子相关三方系统方案,包括一个带有克尔介质的光腔和一个通过机械谐振器相互作用的微波腔。利用量子朗文方程(QLE)方法,我们研究了系统的稳态和静态量子波动。该系统具有克尔非线性、二阶光机械耦合和电光机械耦合的特点。我们研究了这些非线性如何影响正常模式分裂、纠缠以及在实验可及参数范围内的挤压谱。我们的研究结果表明,只有当系统中所有非线性因素都存在时,才会发生正常模式分裂。我们还发现,这些不同的非线性会影响子系统之间的纠缠。此外,我们发现只有两种特定的非线性--克尔非线性和二阶光机耦合--会影响输出场强度和光的挤压光谱。所提出的方案深入揭示了光学、机械和微波模式之间的三方相干相互作用,有助于开发量子信息处理装置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Quantum Effects in a Second-Order Coupled Electro-Optomechanical System with Kerr Medium

Quantum Effects in a Second-Order Coupled Electro-Optomechanical System with Kerr Medium

We propose a hybrid quantum-correlated tripartite system scheme involving an optical cavity with Kerr medium, a microwave cavity interacting via a mechanical resonator. Using a quantum Langevin equation (QLE) approach, we study the system’s steady state and stationary quantum fluctuations. The system features Kerr nonlinearity, second-order optomechanical coupling, and electro-optomechanical coupling. We examine how these nonlinearities impact normal mode splitting, entanglement, and the squeezing spectrum within the experimentally accessible parameter regime. Our results show that normal mode splitting occurs only when all nonlinearities in the system are present. We also found that these various nonlinearities influence entanglement between subsystems. Additionally, we discovered that only two specific nonlinearities-Kerr nonlinearity and second-order optomechanical coupling-affect the output field intensity and the squeezing spectrum of the light. The proposed scheme offers insight into the tripartite coherent interaction among the optical, mechanical and microwave modes, which helps to develop a quantum information processing unit.

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来源期刊
CiteScore
2.50
自引率
21.40%
发文量
258
审稿时长
3.3 months
期刊介绍: International Journal of Theoretical Physics publishes original research and reviews in theoretical physics and neighboring fields. Dedicated to the unification of the latest physics research, this journal seeks to map the direction of future research by original work in traditional physics like general relativity, quantum theory with relativistic quantum field theory,as used in particle physics, and by fresh inquiry into quantum measurement theory, and other similarly fundamental areas, e.g. quantum geometry and quantum logic, etc.
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