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Main Authors: Li, Benli, Chen, Yahong, Deng, Weimin, Wang, Tongbiao, Wan, Lipeng, Yu, Tianbao
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.20343
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author Li, Benli
Chen, Yahong
Deng, Weimin
Wang, Tongbiao
Wan, Lipeng
Yu, Tianbao
author_facet Li, Benli
Chen, Yahong
Deng, Weimin
Wang, Tongbiao
Wan, Lipeng
Yu, Tianbao
contents The twist phase of random light represents a nontrivial two-point phase, endowing the field with orbital angular momentum. Although the mutual transition of the spin and orbit angular momenta of coherent light has been revealed, the relationship between spin-orbital angular momentum interaction (SOI) and the twist phase has remained unexplored. This is because of the stochastic nature of random light, making it challenging to explore the properties of angular momenta that rely on well-defined spatial and polarization structures. This study addresses this gap from the view of the asymmetry coherent-mode decomposition for twisted random light to gain insight into the intricate interplay between the twist phase and the SOI within a tight focusing system. Our findings reveal that spin and orbit angular momentum transitions occur in the tightly focused twisted random light beam, yielding the transverse spin density controlled by the twist phase. This effect becomes more pronounced when the spin of random light and the chirality of the twist phase are the same. Our work may find significant applications in optical sensing, metrology, and quantum optics.
format Preprint
id arxiv_https___arxiv_org_abs_2412_20343
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Spin-orbit interactions of the twisted random light
Li, Benli
Chen, Yahong
Deng, Weimin
Wang, Tongbiao
Wan, Lipeng
Yu, Tianbao
Optics
The twist phase of random light represents a nontrivial two-point phase, endowing the field with orbital angular momentum. Although the mutual transition of the spin and orbit angular momenta of coherent light has been revealed, the relationship between spin-orbital angular momentum interaction (SOI) and the twist phase has remained unexplored. This is because of the stochastic nature of random light, making it challenging to explore the properties of angular momenta that rely on well-defined spatial and polarization structures. This study addresses this gap from the view of the asymmetry coherent-mode decomposition for twisted random light to gain insight into the intricate interplay between the twist phase and the SOI within a tight focusing system. Our findings reveal that spin and orbit angular momentum transitions occur in the tightly focused twisted random light beam, yielding the transverse spin density controlled by the twist phase. This effect becomes more pronounced when the spin of random light and the chirality of the twist phase are the same. Our work may find significant applications in optical sensing, metrology, and quantum optics.
title Spin-orbit interactions of the twisted random light
topic Optics
url https://arxiv.org/abs/2412.20343