Angular momentum properties of hybrid cylindrical vector vortex beams in tightly focused optical systems

Peiwen Meng; Zhongsheng Man; A. P. Konijnenberg; H. P. Urbach

doi:10.1364/OE.27.035336

Angular momentum properties of hybrid cylindrical vector vortex beams in tightly focused optical systems

Peiwen Meng, Zhongsheng Man, A. P. Konijnenberg, H. P. Urbach

ImPhys/Optics

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Abstract

Optical angular momenta (AM) have attracted tremendous research interest in recent years. In this paper we theoretically investigate the electromagnetic field and angular momentum properties of tightly focused arbitrary cylindrical vortex vector (CVV) input beams. An absorptive particle is placed in focused CVV fields to analyze the optical torques. The spin-orbit motions of the particle can be predicted and controlled when the influences of different parameters, such as the topological charge, the polarization and the initial phases, are taken into account. These findings will be helpful in optical beam shaping, optical spin-orbit interaction and practical optical manipulation.

Original language	English
Pages (from-to)	35336-35348
Number of pages	13
Journal	Optics Express
Volume	27
Issue number	24
DOIs	https://doi.org/10.1364/OE.27.035336
Publication status	Published - 2019

Keywords

OA-Fund TU Delft

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oe-27-24-35336Final published version, 1 MBLicence: CC BY

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abstract = "Optical angular momenta (AM) have attracted tremendous research interest in recent years. In this paper we theoretically investigate the electromagnetic field and angular momentum properties of tightly focused arbitrary cylindrical vortex vector (CVV) input beams. An absorptive particle is placed in focused CVV fields to analyze the optical torques. The spin-orbit motions of the particle can be predicted and controlled when the influences of different parameters, such as the topological charge, the polarization and the initial phases, are taken into account. These findings will be helpful in optical beam shaping, optical spin-orbit interaction and practical optical manipulation.",

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AU - Meng, Peiwen

AU - Man, Zhongsheng

AU - Konijnenberg, A. P.

AU - Urbach, H. P.

PY - 2019

Y1 - 2019

N2 - Optical angular momenta (AM) have attracted tremendous research interest in recent years. In this paper we theoretically investigate the electromagnetic field and angular momentum properties of tightly focused arbitrary cylindrical vortex vector (CVV) input beams. An absorptive particle is placed in focused CVV fields to analyze the optical torques. The spin-orbit motions of the particle can be predicted and controlled when the influences of different parameters, such as the topological charge, the polarization and the initial phases, are taken into account. These findings will be helpful in optical beam shaping, optical spin-orbit interaction and practical optical manipulation.

AB - Optical angular momenta (AM) have attracted tremendous research interest in recent years. In this paper we theoretically investigate the electromagnetic field and angular momentum properties of tightly focused arbitrary cylindrical vortex vector (CVV) input beams. An absorptive particle is placed in focused CVV fields to analyze the optical torques. The spin-orbit motions of the particle can be predicted and controlled when the influences of different parameters, such as the topological charge, the polarization and the initial phases, are taken into account. These findings will be helpful in optical beam shaping, optical spin-orbit interaction and practical optical manipulation.

KW - OA-Fund TU Delft

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JO - Optics Express

JF - Optics Express

IS - 24

ER -

Angular momentum properties of hybrid cylindrical vector vortex beams in tightly focused optical systems

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