各向同性介质中的磁四极二色性

arXiv - PHYS - Optics Pub Date : 2024-09-09 DOI:arxiv-2409.05411

A. A. Fomin, G. G. Kozlov, M. V. Petrenko, M. Yu. Petrov, D. S. Smirnov, V. S. Zapasskii

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引用次数: 0

摘要

对于各向同性介质，在 Voigt 几何结构中施加的磁场只对光学特性产生二阶影响，因此其影响比在法拉第几何结构中要小得多。在这项研究中，我们发现在共振激励远远超出线性范围的情况下，情况会发生巨大变化：很小的磁线性各向异性大大增加，甚至出现了更强的新的四极二向性。后者表现为 90{deg}-periodic azimuthal dependence of transmission 和探针极化平面的各向异性旋转。我们在玩具模型中对这些效应进行了微观描述，并介绍了它们的对称性分析。在铯蒸汽的 D2 共振上对这两种效应进行了实验观察，结果与理论预测一致。四极二色性的巨大影响使其在磁测量应用和研究各向异性漂白效应方面大有可为。

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Magnetic quadrupole dichroism in isotropic medium

For an isotropic medium, a magnetic field applied in the Voigt geometry affects the optical properties in the second order only, so its effect is much weaker than in the Faraday geometry. In this work, we show that, under resonant excitation well beyond the linear regime, the situation changes drastically: A small magnetic linear anisotropy considerably increases, and an even stronger new quadrupole dichroism emerges. The latter manifests itself as 90{\deg}-periodic azimuthal dependence of transmission and anisotropic rotation of the probe polarization plane. These effects are described microscopically in a toy model and their symmetry analysis is presented. Both are observed experimentally on the D2 resonance of cesium vapor and agree with the theoretical predictions. The large magnitude of the quadrupole dichroism makes it promising for magnetometric applications and for studying the effects of anisotropic bleaching.

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arXiv - PHYS - Optics

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