Spatial correlation properties of twisted partially coherent light focused by diffractive axicons

Shukri, M. A.; Alkelly, Abdu A.; Alarify, Y.S.

doi:10.1364/josaa.29.002019

Cited by 11 publications

(2 citation statements)

References 23 publications

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“…Suppose that the PCGSMV beams exhibit an effective beam width w e f f [41,42], which can be expressed as follows…”

Section: Depth Of Focusmentioning

confidence: 99%

Intensity distribution of the partially coherent Gaussian Schell vortex beam diffracted by classical axicon

Kaid,

Al-Nadary,

Qusailah

et al. 2024

jast

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Based on the mathematical framework of the partially coherent Gaussian Schell model vortex (PCGSMV) beam and the Huygens-Fresnel integral, we conducted a study to analyze the intensity distribution and depth of focus (DOF) of the PCGSMV beam as it propagates through a classical axicon. Our numerical results indicate the influence of factors such as the beam width, spatial degree of coherence, topological charge, and axicon base angle on the intensity distribution and DOF. In addition, we investigated the relationship between the beam spot size and propagation distance, as well as the effects of the spatial degree of coherence and propagation distance on the intensity profile. Our findings highlight the importance of the intensity values along the DOF for various applications, including the optical trapping and manipulation of micro-particles.

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“…Suppose that the PCGSMV beams exhibit an effective beam width w e f f [41,42], which can be expressed as follows…”

Section: Depth Of Focusmentioning

confidence: 99%

Intensity distribution of the partially coherent Gaussian Schell vortex beam diffracted by classical axicon

Kaid,

Al-Nadary,

Qusailah

et al. 2024

jast

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“…The twisted phase is found to be closely related to the vortex phase. The TGSM beam could be regarded as a combination of infinite uncorrelated spiral components, or as an incoherent superposition of partially coherent modified Bessel-Gaussian beams [13,14]. The internal asymmetry of the twist phase makes the beam exhibit unusual orbital angular momentum (OAM) properties.…”

Section: Introductionmentioning

confidence: 99%

Progress on Studies of Beams Carrying Twist

et al. 2021

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Optical twist has always been a hot spot in optics since it was discovered in 1993. Twisted beams can be generated by introducing the twist phase into partially coherent beams, or by introducing the twisting phase into anisotropic beams, whose spectral density and degree of coherence will spontaneously rotate during propagation. Unlike conventional beams, twisted beams have unique properties and can be used in many applications, such as optical communications, laser material processing, and particle manipulation. In this paper, we present a review of recent developments on phase studies of beams carrying twist.

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