Photonic spin Hall effect on an ellipsoidal Rayleigh particle in scattering far-field

Wenjia Li; Jianlong Liu; Yang Gao; Keya Zhou; Shutian Liu

doi:10.1364/OE.27.028194

Photonic spin Hall effect on an ellipsoidal Rayleigh particle in scattering far-field

Wenjia Li
, Jianlong Liu
, Yang Gao
, Keya Zhou
, Shutian Liu

School of Physics, Harbin Institute of Technology
Heilongjiang University

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

We present the photonic spin Hall effect on an ellipsoidal Rayleigh particle, which amounts to a polarization-dependent shift in scattering far-field. Based on the dipole model, we demonstrate that such shift is unavoidable when the light incidence is inclined with respect to the main axis of the ellipsoidal Rayleigh particle. The result has general validity and can be applied to metal and dielectric materials. In addition, the photonic spin Hall effect also manifests itself in the optical force and torque exerted on the particle, which is promising for precision metrology, spin-optics devices and optical driven micro-machines. Due to wide existence of the Rayleigh particles in nature, we believe that our findings might provide a useful toolset for investigating polarization-dependent scattering of particles.

Original language	English
Pages (from-to)	28194-28203
Number of pages	10
Journal	Optics Express
Volume	27
Issue number	20
DOIs	https://doi.org/10.1364/OE.27.028194
State	Published - 30 Sep 2019
Externally published	Yes

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title = "Photonic spin Hall effect on an ellipsoidal Rayleigh particle in scattering far-field",

abstract = "We present the photonic spin Hall effect on an ellipsoidal Rayleigh particle, which amounts to a polarization-dependent shift in scattering far-field. Based on the dipole model, we demonstrate that such shift is unavoidable when the light incidence is inclined with respect to the main axis of the ellipsoidal Rayleigh particle. The result has general validity and can be applied to metal and dielectric materials. In addition, the photonic spin Hall effect also manifests itself in the optical force and torque exerted on the particle, which is promising for precision metrology, spin-optics devices and optical driven micro-machines. Due to wide existence of the Rayleigh particles in nature, we believe that our findings might provide a useful toolset for investigating polarization-dependent scattering of particles.",

author = "Wenjia Li and Jianlong Liu and Yang Gao and Keya Zhou and Shutian Liu",

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T1 - Photonic spin Hall effect on an ellipsoidal Rayleigh particle in scattering far-field

AU - Li, Wenjia

AU - Liu, Jianlong

AU - Gao, Yang

AU - Zhou, Keya

AU - Liu, Shutian

PY - 2019/9/30

Y1 - 2019/9/30

N2 - We present the photonic spin Hall effect on an ellipsoidal Rayleigh particle, which amounts to a polarization-dependent shift in scattering far-field. Based on the dipole model, we demonstrate that such shift is unavoidable when the light incidence is inclined with respect to the main axis of the ellipsoidal Rayleigh particle. The result has general validity and can be applied to metal and dielectric materials. In addition, the photonic spin Hall effect also manifests itself in the optical force and torque exerted on the particle, which is promising for precision metrology, spin-optics devices and optical driven micro-machines. Due to wide existence of the Rayleigh particles in nature, we believe that our findings might provide a useful toolset for investigating polarization-dependent scattering of particles.

AB - We present the photonic spin Hall effect on an ellipsoidal Rayleigh particle, which amounts to a polarization-dependent shift in scattering far-field. Based on the dipole model, we demonstrate that such shift is unavoidable when the light incidence is inclined with respect to the main axis of the ellipsoidal Rayleigh particle. The result has general validity and can be applied to metal and dielectric materials. In addition, the photonic spin Hall effect also manifests itself in the optical force and torque exerted on the particle, which is promising for precision metrology, spin-optics devices and optical driven micro-machines. Due to wide existence of the Rayleigh particles in nature, we believe that our findings might provide a useful toolset for investigating polarization-dependent scattering of particles.

UR - https://www.scopus.com/pages/publications/85072698092

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DO - 10.1364/OE.27.028194

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SP - 28194

EP - 28203

JO - Optics Express

JF - Optics Express

IS - 20

ER -

Photonic spin Hall effect on an ellipsoidal Rayleigh particle in scattering far-field

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