AI Article Synopsis
- The method discussed involves expanding the Bessel function J0 from the Fresnel-Kirchhoff integral into a sum of complex Gaussian functions to analyze the behavior of a Laguerre-Gaussian beam passing through a hard-edge aperture.
- The effectiveness of this approximation relies on optimizing the number of expansion coefficients, which affects the accuracy of the results.
- An alternative approach is proposed, where J0 is expanded using collimated Laguerre-Gaussian functions, and the optimal number of these functions is determined recursively based on specific parameters.
Article Abstract
A variant of the Gaussian beam expansion method consists in expanding the Bessel function J0 appearing in the Fresnel-Kirchhoff integral into a finite sum of complex Gaussian functions to derive an analytical expression for a Laguerre-Gaussian beam diffracted through a hard-edge aperture. However, the validity range of the approximation depends on the number of expansion coefficients that are obtained by optimization-computation directly. We propose another solution consisting in expanding J0 onto a set of collimated Laguerre-Gaussian functions whose waist depends on their number and then, depending on its argument, predicting the suitable number of expansion functions to calculate the integral recursively.
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| http://dx.doi.org/10.1364/JOSAA.26.002373 | DOI Listing |
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