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Preparation and properties of a non-classical state by quantum catalysis and two-mode squeezing

In this work, we propose a scheme for generating non-classical quantum catalyzed states, named Laguerre polynomial-weighted squeezed states, via inputting a single-mode squeezed vacuum state and an m-photon Fock state by quantum catalysis and two-mode squeezing. The non-classical properties of the g...

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Published in:Laser physics 2018-09, Vol.28 (9), p.95203
Main Authors: Xie, Min, Zhou, Weidong, Ye, Wei, Hu, Yinquan, Hu, Liyun
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Zhou, Weidong
Ye, Wei
Hu, Yinquan
Hu, Liyun
description In this work, we propose a scheme for generating non-classical quantum catalyzed states, named Laguerre polynomial-weighted squeezed states, via inputting a single-mode squeezed vacuum state and an m-photon Fock state by quantum catalysis and two-mode squeezing. The non-classical properties of the generated catalyzed state are investigated using the degree of squeezing and Wigner function. It is found that these non-classical properties, including squeezing degree and the negativity of the Wigner function, can be improved and modulated by both squeezing parameters and the catalyzed photon number.
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subjects non-classical properties
non-classical state
quantum catalysis
two-mode squeezing
title Preparation and properties of a non-classical state by quantum catalysis and two-mode squeezing
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