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Main Authors: Yuan, Shuaijie, Zhu, Xu, Yang, Jin, Liu, Yu, Zou, Jinhai, Nie, Zhongquan, Jia, Baohua, Lei, Bing
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.03180
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author Yuan, Shuaijie
Zhu, Xu
Yang, Jin
Liu, Yu
Zou, Jinhai
Nie, Zhongquan
Jia, Baohua
Lei, Bing
author_facet Yuan, Shuaijie
Zhu, Xu
Yang, Jin
Liu, Yu
Zou, Jinhai
Nie, Zhongquan
Jia, Baohua
Lei, Bing
contents Stokes polarimetry has been considered as an alluring platform that enables a plethora of applications ranging from single-molecule orientation to deep-space sensing. Existing polarimetry avenues, however, rely primarily on the transversely polarized field reconstruction, thus suffering from several challenges such as multiple time sequenced detections, complex demodulation algorithms, and intricate engineering procedures. To circumvent these challenges, here we first demonstrate a longitudinally polarized field mediated recipe for the realization of efficacious and refined Stokes polarimetry in situ. This is achieved by unraveling the spin-to-orbit momentum conversion under non-paraxial focusing conditions enabling the direct mapping of the polarization ellipse. Leveraging this mechanism, we reveal an analytical solution of polarization ellipse via the local sampling of longitudinal field, in which the robustness can be fairly reinforced by relevant global retrieval based on convolutional neural network. The resultant Stokes polarimetry is shown to simultaneously exhibit in-situ signal acquisition (direct discernment), unparalleled demodulation time (up tomicrosecond level), superior detection efficiency (no need of troublesome design), and ultra-high retrieved accuracy (less than 1%), which is fundamentally inaccessible with traditional polarimetry methods. Our work holds great promise for empowering an allin-one versatile vector polarimeter, which opens up a host of applications relevant to polarization control.
format Preprint
id arxiv_https___arxiv_org_abs_2510_03180
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Unraveling longitudinal field mediated versatile Stokes polarimetry
Yuan, Shuaijie
Zhu, Xu
Yang, Jin
Liu, Yu
Zou, Jinhai
Nie, Zhongquan
Jia, Baohua
Lei, Bing
Optics
Stokes polarimetry has been considered as an alluring platform that enables a plethora of applications ranging from single-molecule orientation to deep-space sensing. Existing polarimetry avenues, however, rely primarily on the transversely polarized field reconstruction, thus suffering from several challenges such as multiple time sequenced detections, complex demodulation algorithms, and intricate engineering procedures. To circumvent these challenges, here we first demonstrate a longitudinally polarized field mediated recipe for the realization of efficacious and refined Stokes polarimetry in situ. This is achieved by unraveling the spin-to-orbit momentum conversion under non-paraxial focusing conditions enabling the direct mapping of the polarization ellipse. Leveraging this mechanism, we reveal an analytical solution of polarization ellipse via the local sampling of longitudinal field, in which the robustness can be fairly reinforced by relevant global retrieval based on convolutional neural network. The resultant Stokes polarimetry is shown to simultaneously exhibit in-situ signal acquisition (direct discernment), unparalleled demodulation time (up tomicrosecond level), superior detection efficiency (no need of troublesome design), and ultra-high retrieved accuracy (less than 1%), which is fundamentally inaccessible with traditional polarimetry methods. Our work holds great promise for empowering an allin-one versatile vector polarimeter, which opens up a host of applications relevant to polarization control.
title Unraveling longitudinal field mediated versatile Stokes polarimetry
topic Optics
url https://arxiv.org/abs/2510.03180