Litcius/Paper detail

Reservoir-Mediated Quantum Correlations in Non-Hermitian Optical System

Wanxia Cao, Xingda Lu, Xin Meng, Jian Sun, Heng Shen, Yanhong Xiao

2020Physical Review Letters64 citationsDOIOpen Access PDF

Abstract

Recent advances in non-Hermitian physical systems have led to numerous novel optical phenomena and applications. Such systems typically involve gain and loss associated with dissipative coupling to the environment, hence interesting quantum phenomena are often washed out, rendering most realizations classical. Here, in contrast, we propose to employ dissipative coupling to enable quantum correlations. In particular, two distant optical channels are judiciously designed to couple to and exchange information with a common reservoir environment, under an anti-parity-time-symmetric setting of hot but coherent atoms. We realize a non-Hermitian nonlinear phase sensitive parametric process, where atomic motion leads to quantum correlations between two distant light beams in the symmetry-unbroken phase. This Letter starts a new route to exploring the non-Hermitian quantum phenomena by bridging the fields of atomic physics, non-Hermitian optics, quantum information, and reservoir engineering. Potential applications include novel quantum light sources, quantum information processing and sensing, and generalization to correlated many-body systems.

Topics & Concepts

PhysicsDissipative systemHermitian matrixOpen quantum systemQuantumQuantum opticsQuantum informationQuantum imagingQuantum mechanicsQuantum processPhysical systemStatistical physicsQuantum networkQuantum sensorQuantum information scienceQuantum technologyClassical mechanicsQuantum dynamicsQuantum entanglementQuantum Mechanics and Non-Hermitian PhysicsAdvanced Fiber Laser TechnologiesMechanical and Optical Resonators