Time evolution of negative binomial optical field in diffusion channel
Liu Tang-Kun, Wu Pan-Pan, Shan Chuan-Jia, Liu Ji-Bing, Fan Hong-Yi
TL;DR
This paper investigates how negative binomial optical fields evolve over time in a diffusion channel, demonstrating that photon numbers can be controlled by tuning the diffusion parameter, thus enabling quantum control via photon addition.
Contribution
It introduces a novel understanding of the time evolution of negative binomial optical fields in diffusion channels and proposes diffusion as a quantum control scheme.
Findings
Photon number can be controlled by adjusting the diffusion parameter.
Diffusion process acts as a quantum control mechanism through photon addition.
Time evolution law of negative binomial optical fields is established.
Abstract
We find time evolution law of negative binomial optical field in diffusion channel. We reveal that by adjusting the diffusion parameter, photon number can controlled. Therefore, the diffusion process can be considered a quantum controlling scheme through photon addition.
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Taxonomy
TopicsQuantum Information and Cryptography · Spectroscopy and Quantum Chemical Studies · Quantum optics and atomic interactions