Rapid generation of perfect vortex beam without side lobes

Li, Siqi; Liu, Mulong; Li, Xingyi; Ge, Zhiqiang; Zhang, Lingxuan

doi:10.1142/s0217984918502895

Mod. Phys. Lett. B

2018

DOI: 10.1142/s0217984918502895

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Rapid generation of perfect vortex beam without side lobes

Siqi Li

Mulong Liu

Xingyi Li

et al.

Abstract: We have proposed an approach for rapid generation of perfect vortex beam without side lobes through a digital micromirror device (DMD). Employing this method, the amplitude and phase of far field can be controlled indirectly by changing the rotation state of each unit on the DMD. The perfect vortex beams of equal rings diameter independent of their topological charges are generated commendably and the side lobes are avoided. Moreover, we have demonstrated rapid switching among the generated orbital angular mom… Show more

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References 21 publications

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Separation and detection of orbital angular momentum states of composite vortex beams in atmospheric turbulence channels

Hongyan,

Han,

Yuejiao

et al. 2023

J. Opt.

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The separation and detection of compound orbital angular momentum (OAM) modes are the basis for achieving high-speed and high-capacity communication, but the atmospheric turbulence causes distortion of the phase fronts of vortex beams, which hinders the recognition of OAM modes. To solve this problem, in this work, we propose and investigate a joint scheme of combining the Gerchberg–Saxton (GS) algorithm and the phase of addition and subtraction model that can achieve high recognition accuracy and a wide range of OAM modes of compound perfect optical vortex beam under long-distance turbulence environment. At the receiving end, the GS algorithm and phase addition and subtraction are used to compensate and modulate the incident vortex light field to obtain the pre-processed light field, and then the OAM is detected by the coordinate transformation method. The simulation results show that: The detection range of the OAM of the three optical path detection model for the vortex beam transmitting 1000 m reaches −37 to +37 in the vacuum environment, and the mode purity of −37 to +37 can reach more than 0.3 when the turbulence intensity is Cn 2 = 2 × 10−15 m−2/3. The detection range of the OAM of the vortex can be further expanded by increasing the optical path. This study provides a new method for the separation and detection of OAM of composite vortex beams.

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Separation and detection of orbital angular momentum states of composite vortex beams in atmospheric turbulence channels

Hongyan,

Han,

Yuejiao

et al. 2023

J. Opt.

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Reconfigurable perfect vortex beam generator based on a liquid crystal spiral phase plate

Pereiro-García,

García-De-Blas,

De La Rosa

et al. 2023

Opt. Express

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A transmissive adaptable optical setup to generate a range of perfect vortex beams (PVBs) carrying different topological charges (TC) without using moving parts is presented. The setup is composed of an ad hoc transparent reconfigurable liquid crystal (LC) spiral phase plate (SPP), a refractive axicon and a convergent refractive lens. The LC SPP electrodes are manufactured ablating indium-tin oxide (ITO) glass substrates using direct laser writing (DLW) resulting in a very high fill factor device. In-house tailored electronics drive the 72 LC SPP electrodes giving rise to 72 different configurations with orbital angular momentum. In this work, the generation of PVBs with 36 positive or 36 negative TCs using this optical setup is accomplished.

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Integrated structured light manipulation

Wang,

Li,

Quan

2024

Photonics Insights

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Rapid generation of perfect vortex beam without side lobes

Cited by 3 publications

References 21 publications

Separation and detection of orbital angular momentum states of composite vortex beams in atmospheric turbulence channels

Separation and detection of orbital angular momentum states of composite vortex beams in atmospheric turbulence channels

Reconfigurable perfect vortex beam generator based on a liquid crystal spiral phase plate

Integrated structured light manipulation

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