光密集原子系综上散射光强度角依赖性的形成

Nikolay V. Larionov
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引用次数: 0

摘要

本文从理论上研究了探测光在冷光密原子系综上的散射。为了描述量子电动力学中光的多重散射,采用了Konstantinov-Perel-Keldysh图技术。这种技术允许重写考虑的情况下的光散射的图表系列,其中每个术语描述一定顺序的非相干散射。对这些术语进行解码,我们可以得到固定两能级原子的多重非相干散射截面的显式解析表达式(跃迁Jg = 0 → Je = 1)。通过蒙特卡罗模拟对该表达式进行数值分析,可以发现不同阶次散射对散射光强形成角依赖性的影响。
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Formation of the angular dependence of intensity of the light scattered on the optically dense atomic ensemble

The probe light scattering on the cold optically dense atomic ensemble is studied theoretically in the paper. In order to describe multiple scattering of light in the context of quantum electrodynamics, the Konstantinov–Perel–Keldysh diagram technique has been used. This technique allows to rewrite the considered case of light scattering in terms of diagram series where each term describes incoherent scattering of certain order. Decoding these terms allowed us to obtain the explicit analytical expression for the cross-section of multiple incoherent scattering for the case of stationary two-level atoms (transition Jg = 0 → Je = 1). The numerical analysis of this expression carried out by applying the Monte-Carlo simulation made it possible to find an influence of different orders of scattering on forming the angular dependence of scattered light intensity.

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