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Main Authors: Wen, Jiquan, Chen, Huajin, Zheng, Hongxia, Xu, Xiaohao, Yan, Shaohui, Yao, Baoli, Lin, Zhifang
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.11924
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_version_ 1866909319140737024
author Wen, Jiquan
Chen, Huajin
Zheng, Hongxia
Xu, Xiaohao
Yan, Shaohui
Yao, Baoli
Lin, Zhifang
author_facet Wen, Jiquan
Chen, Huajin
Zheng, Hongxia
Xu, Xiaohao
Yan, Shaohui
Yao, Baoli
Lin, Zhifang
contents Owing to the ubiquity and easy-to-shape property of optical intensity, the intensity gradient force of light has been most spectacularly exploited in optical manipulation of small particles. Manifesting the intensity gradient as an optical torque to spin particles is of great fascination on both fundamental and practical sides but remains elusive. Here, we uncover the existence of the optical intensity-gradient torque in the interaction of light with chiral particles. Such a new type of torque derives from the interplay between chirality induced multipoles, which switches its direction for particles with opposite chirality. We show that this torque can be directly detected by a simple standing wave field, created with the interference of two counterpropagating plane-like waves. Our work offers a unique route to achieve rotational control of matter by tailoring the field intensity of Maxwell waves. It also establishes a framework that maps a remarkable connection among the optical forces and torques, across chiral to nonchiral.
format Preprint
id arxiv_https___arxiv_org_abs_2409_11924
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Optical intensity-gradient torque due to chiral multipole interplay
Wen, Jiquan
Chen, Huajin
Zheng, Hongxia
Xu, Xiaohao
Yan, Shaohui
Yao, Baoli
Lin, Zhifang
Optics
Owing to the ubiquity and easy-to-shape property of optical intensity, the intensity gradient force of light has been most spectacularly exploited in optical manipulation of small particles. Manifesting the intensity gradient as an optical torque to spin particles is of great fascination on both fundamental and practical sides but remains elusive. Here, we uncover the existence of the optical intensity-gradient torque in the interaction of light with chiral particles. Such a new type of torque derives from the interplay between chirality induced multipoles, which switches its direction for particles with opposite chirality. We show that this torque can be directly detected by a simple standing wave field, created with the interference of two counterpropagating plane-like waves. Our work offers a unique route to achieve rotational control of matter by tailoring the field intensity of Maxwell waves. It also establishes a framework that maps a remarkable connection among the optical forces and torques, across chiral to nonchiral.
title Optical intensity-gradient torque due to chiral multipole interplay
topic Optics
url https://arxiv.org/abs/2409.11924