Detecting orbital angular momentum of perfect optical vortex beams based on diffraction neural networks

Ke CHENG; Xiaonan HU; Yu HE; Weijia MENG; Haitao LUAN; Min GU; Xinyuan FANG

doi:10.3969/j.issn.1007-5461.2022.02.006

Journals >Chinese Journal of Quantum Electronics >Volume 39 >Issue 2 >Page 262 > Article

Chinese Journal of Quantum Electronics
Vol. 39, Issue 2, 262 (2022)

Detecting orbital angular momentum of perfect optical vortex beams based on diffraction neural networks

Ke CHENG^1、2、*, Xiaonan HU^1、2, Yu HE^1、2, Weijia MENG^1、2, Haitao LUAN^1、2, Min GU^1、2, and Xinyuan FANG^1、2

Author Affiliations

¹[in Chinese]

²[in Chinese]

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DOI: 10.3969/j.issn.1007-5461.2022.02.006 Cite this Article

CHENG Ke, HU Xiaonan, HE Yu, MENG Weijia, LUAN Haitao, GU Min, FANG Xinyuan. Detecting orbital angular momentum of perfect optical vortex beams based on diffraction neural networks[J]. Chinese Journal of Quantum Electronics, 2022, 39(2): 262 Copy Citation Text

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Abstract

Perfect optical vortex beam (POVB) is a specific kind of vortex beam with radial intensity distribution and radius both independent of the orbital angular momentum (OAM) states, which has been applied in optical manipulation, optical communication, laser material processing and so on. The detection of OAM states of POVB is critical and challenges remain. A diffractive optical neural network (DNN) has been constructed based on the parallel gradient descent algorithm, and the recognition of the POVB with OAM order ranging from-50 to +50 has been realized experimentally. In this process, the diffraction conversion efficiency can reach up to 58%. This work provides a new method for OAM detection of POVB and shows great potential in various POVB-based applications.

Keywords

Fourier optics optical diffraction neural network orbital angular momentum detection perfect optical vortex beam

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