2021
DOI: 10.1063/5.0061365
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Machine learning based accurate recognition of fractional optical vortex modes in atmospheric environment

Abstract: Optical vortex beam with fractional orbital angular momentum (OAM) has great potential to increase the capacity of optical communication and information processing in classical and quantum regimes. However, atmospheric turbulence (AT) in free space distorts the helical phase-front of vortex beams and causes the mode diffusion, seriously hindering the practical application. Herein, using a convolutional neural network approach with an improved residual neural network architecture, we overcome the hurdle to give… Show more

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Cited by 33 publications
(10 citation statements)
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“…8, where our results decline much slower as the structure constant or the propagation distance increases. For fraction recognition, the recognition accuracy under z = 1.5km and C 2 n = 5 × 10 −14 m −2/3 in [30] is 85.30%, while our result under z = 1.6km and C 2 n = 5 × 10 −14 m −2/3 is as high as 99.72%.…”
Section: Numerical Resultscontrasting
confidence: 74%
See 3 more Smart Citations
“…8, where our results decline much slower as the structure constant or the propagation distance increases. For fraction recognition, the recognition accuracy under z = 1.5km and C 2 n = 5 × 10 −14 m −2/3 in [30] is 85.30%, while our result under z = 1.6km and C 2 n = 5 × 10 −14 m −2/3 is as high as 99.72%.…”
Section: Numerical Resultscontrasting
confidence: 74%
“…To demonstrate the performance enhancement by the vortex phase modulation, we compare the recognition results in this work with those from [28] and [30]. For integer recognition, performance comparisons between our work and [28] are presented in Fig.…”
Section: Numerical Resultsmentioning
confidence: 99%
See 2 more Smart Citations
“…The author improved anti-turbulence ability by combining a method of diffraction preprocessing of a two-dimensional fork grating and achieved the recognition accuracy of 99.1% for the mode interval of 0.1. In addition, deep-learning-based detection of hybrid beams carrying fractional topological charge and the fractional angular ratio was investigated, which showed accurate recognition of fractional OAM with broad bandwidth in atmospheric environments 28 .…”
Section: Introductionmentioning
confidence: 99%