Entropy variances of pure coherent states in the diffusion channel

doi:10.1088/1674-1056/ad5d97

Abstract Using the operator correspondence of the real and fictious modes in the thermo entangled state representation, we solve the quantum master equation describing the diffusion channel and obtain the Kraus operator-sum representation of its analytical solution. we find that the pure coherent states evolve into the new mixed thermal superposed states in the diffusion channel. Also, we investigate the statistical properties of the initial coherent states and their entropy evolutions in the diffusion channel, and find that the entropy evolutions are only related to the decay time and without the amplitudes of the initial coherent states.

Keywords: entangled state representation diffusion channel coherent state entropy evolution

Received: 25 May 2024
Revised: 24 June 2024
Accepted manuscript online: 02 July 2024

PACS:	42.50.-p	(Quantum optics)
	03.65.-w	(Quantum mechanics)
	05.30.-d	(Quantum statistical mechanics)

Fund: Project supported by Collaborative Innovation Project of University, Anhui Province (Grant No. GXXT-2022-088).

Corresponding Authors: Wei-Feng Wu
E-mail: wfwu@mail.ustc.edu.cn

Cite this article:

Wei-Feng Wu(吴卫锋), Yong Fang(方勇), and Peng Fu(付鹏) Entropy variances of pure coherent states in the diffusion channel 2024 Chin. Phys. B 33 094202

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