Engineering superpositions of N00N states using an asymmetric non-linear Mach–Zehnder interferometer

IF 4.2 Q2 QUANTUM SCIENCE & TECHNOLOGY
Richard J. Birrittella, P. Alsing, J. Schneeloch, C. Gerry, J. Mimih, P. Knight
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引用次数: 0

Abstract

We revisit a method for mapping arbitrary single-mode pure states into superpositions of N00N states using an asymmetric non-linear Mach–Zehnder interferometer (ANLMZI). This method would allow one to tailor-make superpositions of N00N states where each axis of the two-mode joint-photon number distribution is weighted by the statistics of any single-mode pure state. The non-linearity of the ANLMZI comes in the form of a [Formula: see text] self-Kerr interaction occurring on one of the intermediary modes of the interferometer. Motivated by the non-classical interference effects that occur at a beam splitter, we introduce inverse-engineering techniques aimed toward extrapolating optimal transformations for generating N00N state superpositions. These techniques are general enough so as to be employed to probe the means of generating states of any desired quantum properties.
利用非对称非线性马赫-曾德尔干涉仪实现N00N态的工程叠加
我们重新讨论了一种使用不对称非线性马赫-曾德尔干涉仪(ANLMZI)将任意单模纯态映射为N00N态叠加的方法。这种方法将允许人们定制N00N态的叠加,其中双模联合光子数分布的每个轴由任何单模纯态的统计数据加权。ANLMZI的非线性以干涉仪的一个中间模式上发生的[公式:见正文]自克尔相互作用的形式出现。受分束器处发生的非经典干涉效应的启发,我们引入了逆工程技术,旨在外推产生N00N状态叠加的最佳变换。这些技术足够通用,可以用来探测产生任何所需量子性质的状态的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
9.90
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0.00%
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