Estimating topological charge of propagating vortex from single-shot non-imaged speckle

Chen, Li; Singh, Rakesh Kumar; Dogariu, Aristide; Chen, Ziyang; Pu, Jixiong

doi:10.3788/col202119.022603

Cited by 10 publications

(6 citation statements)

References 33 publications

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“…These unique features render vortex beams in great demand for a variety of scientific, medical, and communication applications, such as optical measurement, [2], [3] photon manipulation, [4], [5] super-resolution imaging, [6] and quantum information communication. [7], [8] At present, various methods have been developed for vortex beam generation, such as mode conversion, [9], [10] digital holography, [11] spatial light modulation, [12] microscopic ring resonators, [13] active vortex laser generators, [14], [15] as well as spiral phase plates (SPP). [16]- [18] The SPP can directly generate high conversion efficiency and high power vortex beam by adjusting the thickness or refractive index, and it is usually fabricated by an optically transparent medium with high optical transmittance.…”

Section: Introductionmentioning

confidence: 99%

Vortex beam generation by fabricating spiral phase plate on fiber tips

Wei

Lin

et al. 2023

Advanced Fiber Laser Conference (AFL2022)

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We have proposed and implemented a scheme for spiral phase plate (SPP) with continuous surface fabrication on fiber tips.By combining Focused ion beam-Scanning electron microscope (FIB-SEM) system and bitmap (BMP) format processing method, we fabricated a SPP with the topological charge of 1 on the fiber tip, and experimentally analyzed the diffraction and interference properties of the generated vortex beam. The experimental results were in good agreement with the simulation results, which indicated the SPP fabricated by this method had good optical properties and high reliability. This work could be valuable for fiber communication and information encryption.

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Section: Introductionmentioning

confidence: 99%

Vortex beam generation by fabricating spiral phase plate on fiber tips

Wei

Lin

et al. 2023

Advanced Fiber Laser Conference (AFL2022)

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“…In 1992, Allen et al indicated that for beams with helical phase fronts of expilϕ the OAM in the propagation direction has the discrete values of lh per photon, where h is the reduced Planck constant, and l is usually an integer that represents the topological charge (TC), whose sign indicates the direction of the phase spiral [2] . In theory, the VBs with different OAM modes are mutually orthogonal, and their intensity distribution presents unique "doughnut" shapes due to phase uncertainty at the beam cross section [3] . The discovery of optical vortices carrying OAM has accelerated progress in many research areas [4] .…”

Section: Introductionmentioning

confidence: 99%

High-accuracy mode recognition method in orbital angular momentum optical communication system

Zhang¹,

Hao²,

Chen³

et al. 2022

中国光学快报

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Vortex optical communication has been a hot research field in recent years. A key step is mode recognition in the orbital angular momentum (OAM) free-space optical (FSO) communication system. In this article, we propose an OAM mode recognition method based on image recognition technology, which uses the interferogram between the vortex beam and the Gaussian beam to identify the OAM mode. In order to resist the influence of atmospheric turbulence on the recognition accuracy, we added a Gaussian smoothing filter into the recognition process. Moreover, we used random phase screens to generate interferogram sets at distances of 1 km and 2 km. The verification result shows that the proposed scheme produces high identification accuracy for the distorted optical field. The average accuracy can reach 100% and 87.78% under the conditions of medium-and strong-turbulence levels, respectively. It is anticipated that these results might be helpful for improving the reliability of the OAM-FSO communication system in the future.

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“…Until now, some very specific distributions, including Bessel beams [4] , spatially shifted vortex beams [5] , double-helix beams [6] , and ring-shaped beams [7] , have been explored for parallelization of the direct laser writing or even single-shot microfabrication. Among these methods, Bessel beams [8] and vortex beams [9,10] have been widely applied to generate ring-shaped foci. With the flexible control of parameters of Bessel and vortex beams, the diameter of ring-shaped focus can be easily adjusted.…”

Section: Introductionmentioning

confidence: 99%

Rapid fabrication of microrings with complex cross section using annular vortex beams

Zhang

Cao

et al. 2022

中国光学快报

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A ring-shaped focus, such as a focused vortex beam, has played an important role in microfabrication and optical tweezers. The shape and diameter of the ring-shaped focus can be easily adjusted by the topological charge of the vortex. However, the flow energy is also related to the topological charge, making the individual control of diameter and flow energy of the vortex beam impossible. Meanwhile, the shape of the focus of the vortex beam remains in the hollow ring. Expanding the shape of focus of structural light broadens the applications of the vortex beam in the field of microfabrication. Here, we proposed a ring-shaped focus with controllable gaps by multiplexing the vortex beam and annular beam. The multiplexed beam has several advantages, such as the diameter and flow energy of the focal point can be individually controlled and are not affected by the zero-order beam, and the gap size and position are controllable.

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Estimating topological charge of propagating vortex from single-shot non-imaged speckle

Cited by 10 publications

References 33 publications

Vortex beam generation by fabricating spiral phase plate on fiber tips

Vortex beam generation by fabricating spiral phase plate on fiber tips

High-accuracy mode recognition method in orbital angular momentum optical communication system

Rapid fabrication of microrings with complex cross section using annular vortex beams

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