Influence of astigmatic aberration on partially coherent Gaussian-Schell vortex beam focused by lensacon

https://doi.org/10.59628/jast.v2i5.1274

Authors

  • H. O. Al-Nadary Department of Physics, Faculty of Science, University of Sana’a, Sana’a, Yemen,
  • Shukri kaid Department of Physics, Faculty of Sci, University of Taiz , Taiz, Yemen,
  • Abdu A. Alkelly Department of Physics, Faculty of Science, University of Sana’a, Sana’a, Yemen
  • Hassan T. Al-Ahsab Department of Physics, Faculty of Sci, University of Thamar , Thamar, Yemen,
  • M. S. Qusaila Department of Physics, Faculty of Science, University of Sana’a, Sana’a, Yemen,

Keywords:

partially coherent, Gaussian Schell model, vor- tex , dark hollow, lensacon, astigmatic aberra- tion, depth of focus.

Abstract

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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The contour plots of the intensity distribution of the PCGSMV formed by lensacon in presence of astigmatic aberration coefficient µ = 1.1 and axicon base angle α = 0.02 rad at several propagation distances z, m = 1, w = 6 mm, for different σ.

Published

2024-10-30

How to Cite

Al-Nadary, H. O., kaid, S., Alkelly, A. A., Al-Ahsab, H. T., & Qusaila, M. S. (2024). Influence of astigmatic aberration on partially coherent Gaussian-Schell vortex beam focused by lensacon. Sana’a University Journal of Applied Sciences and Technology , 2(5), 432–439. https://doi.org/10.59628/jast.v2i5.1274

Issue

Vol. 2 No. 5 (2024): Sana'a University Journal of Applied Sciences and Technology 

Section

Article
Copyright & Licensing

Copyright (c) 2024 H. O. Al-Nadary, Shukri kaid, Abdu A. Alkelly, Hassan T. Al-Ahsab, M. S. Qusaila

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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