Related papers: Quantum steering for two-mode states with Continuous-variable in laser channel

Quantum steering for two-mode states with Continuous-variable in laser channel

URL: http://arxiv.org/abs/2311.16658v1
Date: Tue, 28 Nov 2023 10:18:49 GMT
Title: Quantum steering for two-mode states with Continuous-variable in laser channel
Authors: Kaimin Zheng, Jifeng Sun, Liyun Hu, Lijian Zhang
Abstract summary: Einstein-Podolsky-Rosen steering is an important resource for one-sided device independent quantum information processing. This steering property will be destroyed during the interaction between quantum system and environment.
Score: 0.7851536646859476
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The Einstein-Podolsky-Rosen steering is an important resource for one-sided device independent quantum information processing. This steering property will be destroyed during the interaction between quantum system and environment for some practical applications. In this paper, we use the representation of characteristic function for probability to examine the quantum steering of two-mode states with continuous-variable in laser channel, where both the gain factor and the loss effect are considered. Firstly, we analyse the steering time of two-mode squeezed vacuum state under one-mode and two-mode laser channel respectively. We find the gain process will introduce additional noise to the two-mode squeezed vacuum state such that the steerable time is reduced. Secondly, by quantising quantum Einstein-Podolsky-Rosen steering, it shows that two-side loss presents a smaller steerability than one-side loss although they share the same two-way steerable time. In addition, we find the more gained party can steer the others state, while the other party cannot steer the gained party in a certain threshold value. In this sense, it seems that the gain effect in one party is equivalent to the loss effect in the others party. Our results pave way for the distillation of Einstein-Podolsky-Rosen steering and the quantum information processing in practical quantum channels.

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