Depth of focus and intensity distribution of a lensacon illuminated by a partially coherent Gaussian Schell vortex beam
MS Qusailah, AA Alkelly, HO Al-Nadary, SAM Kaid… - Applied Optics, 2024 - opg.optica.org
Using the extended Huygens–Fresnel principle, a cross-spectral density formula was
developed for a Gaussian Schell model vortex (PCGSMV) beam diffracted through a …
developed for a Gaussian Schell model vortex (PCGSMV) beam diffracted through a …
Influence of astigmatic aberration on partially coherent Gaussian-Schell vortex beam focused by lensacon
We investigated the propagation properties of a partially coherent GaussianSchell model
vortex (PCGSMV) beam in an astigmatically aberrated lensacon optical sys-tem. By applying …
vortex (PCGSMV) beam in an astigmatically aberrated lensacon optical sys-tem. By applying …
Depth of focus and Intensity distribution of lensacon illuminated by partially coherent Gaussian Schell vortex beam
S Kaid, A Alkelly, H Alnadary, H Al-Ahsab - 2024 - preprints.opticaopen.org
Using the extended Huygens-Fresnel principle, a cross-spectral density formula was
developed for a Gaussian Schell model vortex (PCGSMV) beam diffracted through …
developed for a Gaussian Schell model vortex (PCGSMV) beam diffracted through …
[PDF][PDF] Propagation intensity and phase distribution of a Partially Coherent Lorentz–Gauss Vortex Beam in a Gradient-Index Medium
The study focused on examining the characteristics of partially coherent Lorentz-Gauss
vortex beams in a medium featuring a gradient refractive index. The study employed the …
vortex beams in a medium featuring a gradient refractive index. The study employed the …