费米子干涉仪中费米子聚类的量子干涉效应

Physica B+C Pub Date : 1988-07-01 DOI:10.1016/0378-4363(88)90180-5

M.P. Silverman

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引用次数: 5

摘要

物质的波状属性已经在许多干涉实验中被检验，显示出粒子场的一阶相干性。强度波动和相关实验，例如由Hanbury Brown和Twiss在光学领域开创的实验，显示了二阶相干性，这是粒子聚集行为的一种度量。到目前为止，这种性质的实验还没有在大质量粒子束上进行过。马赫-曾德尔费米子干涉仪中输出光束的相互关系对多粒子输入态的相干性以及这些态与势场(如电磁势或引力)的量子力学相互作用非常敏感。考虑了单端口和双端口输入光束的例子。

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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Quantum interference effects on fermion clustering in a fermion interferometer

The wave-like attributes of matter have been examined in numerous interference experiments exhibiting the first-order coherence of the particle field. Intensity fluctuation and correlation experiments, such as pioneered in light optics by Hanbury Brown and Twiss, manifest second-order coherence, a measure of particle clustering behaviour. Experiments of this nature have not, as yet, been performed on massive particle beams. The cross-correlation of output beams in a Mach-Zehnder fermion interferometer is sensitive to the coherence properties of multiparticle input states and to the quantum mechanical interaction of such states with potential fields such as electromagnetic potentials or gravity. Examples of both one- and two-port input beams are considered.

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Physica B+C

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