2022
DOI: 10.1007/s11082-022-04292-5
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Investigation on propagation properties of a new optical vortex beam: generalized Hermite-cosh-Gaussian beam

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Cited by 11 publications
(10 citation statements)
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“…Overall, several theoretical and practical investigations have attracted the great attention of many optical researchers to different laser beams passing through oceanic turbulence for a long time, as evidenced by numerous studies (Chen et al 2013;Fu and Zhang 2013;Huang et al 2014;Ding et al 2015;Li et al 2019;Liu et al 2019;Liu et al 2017;Lu et al 2015;Ye et al 2018;Bayraktar 2020;Ata and Baykal 2018). Our research group has conducted a comprehensive study in this domain and has also contributed to examining this medium Saad et al 2023;Benzehoua and Belafhal 2023a;Lazrak et al 2022;Benzehoua et al 2023).…”
Section: Introductionmentioning
confidence: 92%
“…Overall, several theoretical and practical investigations have attracted the great attention of many optical researchers to different laser beams passing through oceanic turbulence for a long time, as evidenced by numerous studies (Chen et al 2013;Fu and Zhang 2013;Huang et al 2014;Ding et al 2015;Li et al 2019;Liu et al 2019;Liu et al 2017;Lu et al 2015;Ye et al 2018;Bayraktar 2020;Ata and Baykal 2018). Our research group has conducted a comprehensive study in this domain and has also contributed to examining this medium Saad et al 2023;Benzehoua and Belafhal 2023a;Lazrak et al 2022;Benzehoua et al 2023).…”
Section: Introductionmentioning
confidence: 92%
“…These investigations have covered various beam types, including coherent and partially coherent beams. Examples of such beams include Hollow Gaussian beams (Deng et al, 2008), Dark Hollow beams (Liu and Zhou, 2008), Anomalous hollow beam (Liu and Zhou, 2009), Lorentz and Lorentz-Gauss beams (Zhao and Cai, 2010), Radially polarized partially coherent beams (Guo et al, 2010), higher-order cosh-Gaussian beams (Lia et al, 2010), Confluent Hypergeometric beam (Li and Chen, 2012), Laguerre Gaussian beams (Zhu et al, 2015;Su et al, 2020), four-petal Gaussian vortex beam (Liu et al, 2015b), Elliptical Gaussian Beam (Liu et al, 2015a;Ye et al, 2022), Airy-Hermite-Gaussian beams (Yu et al, 2017), Airy-Gaussian beam (Deng and Deng, 2016) radially polarized Airy beams (Xie et al, 2018), chirped Airy vortex beams (Zhang et al, 2018), Rectangular multi-Gaussian Schell-model vortex beam (Ma et al, 2020), Hollow vortex Gaussian beams (Li et al, 2019), Airyprime beam , hyperbolic sinusoidal Gaussian beams , Generalized Hermite cosh-Gaussian beam (Saad and Belafhal, 2023), finite-Wright and Mainardi beams (Bayraktar et al, 2023), and General Model vortex higher-order Cosh-Gaussian beam (Saad, 2024).…”
Section: Introductionmentioning
confidence: 99%
“…Encouraged by these characteristics, we recently developed the Generalized Hermitecosh-Gaussian beam (Saad and Belafhal, 2023 ;Saad et al, 2023a;Saad et al, 2023b;Saad et al, 2023c;Benzehoua et al, 2023a ;Benzehoua et al, 2023b) as a new class of partially coherent beams. By carefully selecting its parameters, this source has been shown to be versatile and capable of generating a wide range of random light sources.…”
Section: Introductionmentioning
confidence: 99%