增强涡流束的反向安贝特-费多罗夫位移,实现温度和厚度的精确传感

IF 8.4 1区 物理与天体物理 Q1 OPTICS
Optica Pub Date : 2023-11-16 DOI:10.1364/optica.501428
Guiyuan Zhu, Binjie Gao, Linhua Ye, Junxiang Zhang, Li-Gang Wang
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引用次数: 0

摘要

英贝特-费多罗夫(IF)偏移是指在反射/折射界面上由自旋轨道相互作用引起的微小横向分裂,它对介质的折射率和入射光的动量状态非常敏感。大多数研究都集中在具有自旋角动量(SAM)即圆偏振的入射光束的偏移上。与自旋角动量相比,轨道角动量(OAM)作为光的一种新自由度,在理论上具有无限的维度,并在光物质耦合中发挥着重要作用。我们通过实验证明,当光通过双棱镜结构(DPS)折射时,具有较大相反轨道角动量的涡旋光束的相对中频偏移在共振结构中会高度增强,其中气隙的厚度和温度可通过观测到的相对中频偏移精确感知。随着相反 OAMs 绝对值的增加,厚度和温度灵敏度也随之增加。我们的研究成果为厚度和温度传感、环境气体成分、空间位移、化学物质和变形结构等应用提供了一个技术和实用平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhanced opposite Imbert–Fedorov shifts of vortex beams for precise sensing of temperature and thickness
Imbert-Fedorov (IF) shift, which refers to a tiny transverse splitting induced by spin-orbit interaction at a reflection/refraction interface, is sensitive to the refractive index of a medium and momentum state of incident light. Most of studies have focused on the shift for an incident light beam with a spin angular momentum (SAM) i.e., circular polarization. Compared to SAM, orbital angular momentum (OAM) has infinite dimensions in theory as a new degree of freedom of light and plays an important role in light-matter coupling. We demonstrate experimentally that the relative IF shifts of vortex beams with large opposite OAMs are highly enhanced in resonant structures when light refracts through a double-prism structure (DPS), in which the thickness and temperature of the air gap are precisely sensed via the observed relative IF shifts. The thickness and temperature sensitivities increase as the absolute value of opposite OAMs increases. Our results offer a technological and practical platform for applications in sensing of thickness and temperature, ingredients of environment gas, spatial displacement, chemical substances and deformation structure.
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来源期刊
Optica
Optica OPTICS-
CiteScore
19.70
自引率
2.90%
发文量
191
审稿时长
2 months
期刊介绍: Optica is an open access, online-only journal published monthly by Optica Publishing Group. It is dedicated to the rapid dissemination of high-impact peer-reviewed research in the field of optics and photonics. The journal provides a forum for theoretical or experimental, fundamental or applied research to be swiftly accessed by the international community. Optica is abstracted and indexed in Chemical Abstracts Service, Current Contents/Physical, Chemical & Earth Sciences, and Science Citation Index Expanded.
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