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Autores principales: Liu, Xin, Tu, Shijie, Hu, Yiwen, Peng, Yifan, Han, Yubing, Kuang, Cuifang, Liu, Xu, Hao, Xiang
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2408.14852
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author Liu, Xin
Tu, Shijie
Hu, Yiwen
Peng, Yifan
Han, Yubing
Kuang, Cuifang
Liu, Xu
Hao, Xiang
author_facet Liu, Xin
Tu, Shijie
Hu, Yiwen
Peng, Yifan
Han, Yubing
Kuang, Cuifang
Liu, Xu
Hao, Xiang
contents Tightly focused optical fields are essential in nano-optics, but their applications have been limited by the challenges of accurate yet efficient characterization. In this article, we develop an in situ method for reconstructing the fully vectorial information of tightly focused fields in three-dimensional (3D) space, while simultaneously retrieving the pupil functions. Our approach encodes these fields using phase-modulated focusing and polarization-split detection, followed by decoding through an algorithm based on least-sampling matrix-based Fourier transform and analytically derived gradient. We further employ a focus scanning strategy. When combined with our decoding algorithm, this strategy mitigates the imperfections in the detection path. This approach requires only 10 frames of 2D measurements to realize approximate 90% accuracy in tomography and pupil function retrieval within 10s. Thus, it serves as a robust and convenient tool for the precise characterization and optimization of light at the nanoscale. We apply this technique to fully vectorial field manipulation, adaptive-optics-assisted nanoscopy, and addressing mixed-state problems.
format Preprint
id arxiv_https___arxiv_org_abs_2408_14852
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle In situ fully vectorial tomography and pupil function retrieval of tightly focused fields
Liu, Xin
Tu, Shijie
Hu, Yiwen
Peng, Yifan
Han, Yubing
Kuang, Cuifang
Liu, Xu
Hao, Xiang
Optics
Tightly focused optical fields are essential in nano-optics, but their applications have been limited by the challenges of accurate yet efficient characterization. In this article, we develop an in situ method for reconstructing the fully vectorial information of tightly focused fields in three-dimensional (3D) space, while simultaneously retrieving the pupil functions. Our approach encodes these fields using phase-modulated focusing and polarization-split detection, followed by decoding through an algorithm based on least-sampling matrix-based Fourier transform and analytically derived gradient. We further employ a focus scanning strategy. When combined with our decoding algorithm, this strategy mitigates the imperfections in the detection path. This approach requires only 10 frames of 2D measurements to realize approximate 90% accuracy in tomography and pupil function retrieval within 10s. Thus, it serves as a robust and convenient tool for the precise characterization and optimization of light at the nanoscale. We apply this technique to fully vectorial field manipulation, adaptive-optics-assisted nanoscopy, and addressing mixed-state problems.
title In situ fully vectorial tomography and pupil function retrieval of tightly focused fields
topic Optics
url https://arxiv.org/abs/2408.14852