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Experimental demonstration of robustness of Gaussian quantum coherence

Haijun Kang, Dongmei Han, Na Wang, Liu Yang, Shuhong Hao, Xiaolong Su

2021Photonics Research20 citationsDOI

Abstract

Besides quantum entanglement and steering, quantum coherence has also been identified as a useful quantum resource in quantum information. It is important to investigate the evolution of quantum coherence in practical quantum channels. In this paper, we experimentally quantify the quantum coherence of a squeezed state and a Gaussian Einstein–Podolsky–Rosen (EPR) entangled state transmitted in Gaussian thermal noise channel. By reconstructing the covariance matrix of the transmitted states, quantum coherence of these Gaussian states is quantified by calculating the relative entropy. We show that quantum coherence of the squeezed state and the Gaussian EPR entangled state is robust against loss and noise in a quantum channel, which is different from the properties of squeezing and Gaussian entanglement. Our experimental results pave the way for application of Gaussian quantum coherence in lossy and noisy environments.

Topics & Concepts

Quantum entanglementQuantum discordQuantum channelPhysicsQuantum mechanicsQuantum sensorQuantum technologyQuantum capacityQuantum stateQuantum networkQuantum metrologyStatistical physicsAmplitude damping channelQuantumDegree of coherenceQuantum imagingCoherence (philosophical gambling strategy)Open quantum systemQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture
Experimental demonstration of robustness of Gaussian quantum coherence | Litcius