历经风雨：光学腔如何控制自旋

Through thick and thin: how optical cavities control spin.

作者信息

Dixon Jefferson, Pan Feng, Moradifar Parivash, Bordoloi Priyanuj, Dagli Sahil, Dionne Jennifer

机构信息

Mechanical Engineering, Stanford University, 440 Escondido Mall, 94305, Stanford, CA, USA.

Materials Science and Engineering, Stanford University, 496 Lomita Mall, 94305, Stanford, CA, USA.

出版信息

Nanophotonics. 2023 May 5;12(14):2779-2788. doi: 10.1515/nanoph-2023-0175. eCollection 2023 Jul.

DOI:10.1515/nanoph-2023-0175

PMID:39635484

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11501721/

Abstract

When light interacts with matter by means of scattering and absorption, we observe the resulting color. Light also probes the symmetry of matter and the result is encoded in its polarization. In the special case of circularly-polarized light, which is especially relevant in nonlinear optics, quantum photonics, and physical chemistry, a critical dimension of symmetry is along the longitudinal direction. We examine recent advances in controlling circularly-polarized light and reveal that the commonality in these advances is in judicious control of longitudinal symmetry. In particular, in the use of high quality-factor modes in dielectric metasurfaces, the finite thickness can be used to tune the modal profile. These symmetry considerations can be applied in multiplexed optical communication schemes, deterministic control of quantum emitters, and sensitive detection of the asymmetry of small molecules.

摘要

当光通过散射和吸收与物质相互作用时，我们观察到由此产生的颜色。光还探测物质的对称性，其结果编码在光的偏振中。在圆偏振光这种特殊情况下，它在非线性光学、量子光子学和物理化学中尤为重要，对称性的一个关键维度是沿纵向方向。我们研究了控制圆偏振光的最新进展，并揭示这些进展的共性在于对纵向对称性的明智控制。特别是，在介电超表面中使用高品质因数模式时，有限的厚度可用于调整模式分布。这些对称性考量可应用于复用光通信方案、量子发射器的确定性控制以及小分子不对称性的灵敏检测。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c52/11501721/caf05b9e185e/j_nanoph-2023-0175_fig_001.jpg

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历经风雨：光学腔如何控制自旋

Through thick and thin: how optical cavities control spin.

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