Theoretical study of vortex beam generation based on geometric coordinate transformation

Yanke Li; Yuqing Xie; Sheng Liu; Peng Li; Bingyan Wei; Jianlin Zhao

doi:10.3389/fphy.2022.898638

Theoretical study of vortex beam generation based on geometric coordinate transformation

Yanke Li, Yuqing Xie, Sheng Liu, Peng Li, Bingyan Wei, Jianlin Zhao

School of Physical Science and Technology

Northwestern Polytechnical University Xian

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

1 Scopus citations

Abstract

By performing a conformal optical mapping of an input beam from Cartesian to log-polar coordinates, we propose a method to generate vortex beam. By tilting the incident beam, a phase gradient is attached and evolves into a vortex phase due to the optical transformation. Thus, the topological charge of the generated vortex beam is continuously adjustable. With this method, vortex beams with integer and fractional orders are generated. The purity of the generated vortex beam is theoretically analyzed, as well as the possible effects of phase misalignment on the output vortex. The continuously tunable vortex beam achieved by this method is expected to be used in information processing and optical routing in optical communications.

Original language	English
Article number	898638
Journal	Frontiers in Physics
Volume	10
DOIs	https://doi.org/10.3389/fphy.2022.898638
State	Published - 25 Jul 2022

Keywords

fractional-order vortex
geometric coordinate transform
information codes
orbital angular momentum
vortex beam

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10.3389/fphy.2022.898638

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title = "Theoretical study of vortex beam generation based on geometric coordinate transformation",

abstract = "By performing a conformal optical mapping of an input beam from Cartesian to log-polar coordinates, we propose a method to generate vortex beam. By tilting the incident beam, a phase gradient is attached and evolves into a vortex phase due to the optical transformation. Thus, the topological charge of the generated vortex beam is continuously adjustable. With this method, vortex beams with integer and fractional orders are generated. The purity of the generated vortex beam is theoretically analyzed, as well as the possible effects of phase misalignment on the output vortex. The continuously tunable vortex beam achieved by this method is expected to be used in information processing and optical routing in optical communications.",

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author = "Yanke Li and Yuqing Xie and Sheng Liu and Peng Li and Bingyan Wei and Jianlin Zhao",

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T1 - Theoretical study of vortex beam generation based on geometric coordinate transformation

AU - Li, Yanke

AU - Xie, Yuqing

AU - Liu, Sheng

AU - Li, Peng

AU - Wei, Bingyan

AU - Zhao, Jianlin

PY - 2022/7/25

Y1 - 2022/7/25

N2 - By performing a conformal optical mapping of an input beam from Cartesian to log-polar coordinates, we propose a method to generate vortex beam. By tilting the incident beam, a phase gradient is attached and evolves into a vortex phase due to the optical transformation. Thus, the topological charge of the generated vortex beam is continuously adjustable. With this method, vortex beams with integer and fractional orders are generated. The purity of the generated vortex beam is theoretically analyzed, as well as the possible effects of phase misalignment on the output vortex. The continuously tunable vortex beam achieved by this method is expected to be used in information processing and optical routing in optical communications.

AB - By performing a conformal optical mapping of an input beam from Cartesian to log-polar coordinates, we propose a method to generate vortex beam. By tilting the incident beam, a phase gradient is attached and evolves into a vortex phase due to the optical transformation. Thus, the topological charge of the generated vortex beam is continuously adjustable. With this method, vortex beams with integer and fractional orders are generated. The purity of the generated vortex beam is theoretically analyzed, as well as the possible effects of phase misalignment on the output vortex. The continuously tunable vortex beam achieved by this method is expected to be used in information processing and optical routing in optical communications.

KW - fractional-order vortex

KW - geometric coordinate transform

KW - information codes

KW - orbital angular momentum

KW - vortex beam

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DO - 10.3389/fphy.2022.898638

M3 - 文章

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SN - 2296-424X

VL - 10

JO - Frontiers in Physics

JF - Frontiers in Physics

M1 - 898638

ER -

Theoretical study of vortex beam generation based on geometric coordinate transformation

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Keywords

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