"Theoretical Introduction and Generation Method of a Novel Nondiffracting Waves: Olver Beams"
written by Abdelmajid Belafhal, Lahcen Ez-Zariy, Salima Hennani, Hamid Nebdi,
published by Optics and Photonics Journal, Vol.5 No.7, 2015
has been cited by the following article(s):
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[1] Моделирование формирования бездифракционных параболических пучков
[2] Моделирование и исследование распространения пучков Эйри и Пирси
[3] Формирование бездифракционных пучков с заданным распределением на основе интеграла Уиттекера
[4] Propagation characteristics of non-diffracting Lommel beams in a gradient-index medium
[5] Dynamics of chirped finite Olver Gaussian beam propagating paraxial to uniaxial crystal
[6] Propagation of Cosh-Airy and Cos-Airy Beams in Parabolic Potential
[7] Internal and near-surface fields for a charged sphere irradiated by a vector Bessel beam
[8] Transformation of frequency chirped two-dimensional finite Olver Gaussian beam through sandwich structured slab
[9] Airy-like field under high numerical aperture optical system
Frontiers of Optoelectronics, 2019
[10] Paraxial optical fields whose intensity pattern skeletons are stable caustics
[11] A Note on Self-Accelerating Olver and Olver-Gauss Beams
[12] Accelerating polygon beam with peculiar features
Scientific Reports, 2018
[13] Evolution of a finite Olver beam propagating in a right handed and double negative index slab system
Chinese Journal of Physics, 2018
[14] Wavefronts, actions and caustics determined by the probability density of an Airy beam
Journal of Optics, 2018
[15] Аналитические свойства расширенных пучков Эйри
[16] Scattering of polarized non-diffracting Lommel beams by nonspherical homogeneous particles
Journal of Quantitative Spectroscopy and Radiative Transfer, 2018
[17] Study on the Mainardi beam through the fractional Fourier transforms system
[18] Analytical features of extended Airy beams
[19] Propagation of the finite Olver beams through an apertured misaligned ABCD optical system
Optik, 2017
[20] Fractional Airy beams
Journal of the Optical Society of America A, 2017
[21] Transformation of Finite Olver-Gaussian Beams by an Uniaxial Crystal Orthogonal to the Optical Axis
Progress In Electromagnetics Research M, 2016
[22] Intensity Distribution of the Finite Olver Beams through a Paraxial ABCD Optical System with an Aperture of Basis Annular Aperture
[23] Propagation Properties of Finite Olver-Gaussian Beams Passing through a Paraxial ABCD Optical System
Optics and Photonics Journal, 2015
[24] Radiation Forces on a Dielectric Sphere Produced by Finite Olver-Gaussian Beams
Optics and Photonics Journal, 2015
[25] Intensity Distribution of the Finite Olver Beams through a Paraxial ABCD Optical System with an Aperture of Basis Annularaperture
Optics and Photonics Journal, 2015
[26] The formation of diffraction-free beams with a given distribution based on the Whittaker integral