Reconstruction and Optimization of Coherent Synthesis by Fourier Optics   Based Genetic Algorithm

Randy Lemons; Sergio Carbajo

arXiv:2005.13671·physics.optics·May 29, 2020·1 cites

Reconstruction and Optimization of Coherent Synthesis by Fourier Optics Based Genetic Algorithm

Randy Lemons, Sergio Carbajo

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TL;DR

This paper introduces a numerical method combining Fourier optics and genetic algorithms to improve the reconstruction and optimization of complex field synthesis in coherent pulse systems, achieving high phase accuracy.

Contribution

It develops a novel genetic algorithm framework utilizing Fourier optics for accurate reconstruction and optimization of complex fields in coherent synthesis systems.

Findings

01

Achieves better than π/10 phase accuracy in reconstruction

02

Provides accurate modeling of near and far field distributions

03

Demonstrates improved convergence in complex field synthesis

Abstract

We present a numerical method for the reconstruction and optimization of complex field synthesis using coherent pulse combination systems. A genetic algorithm utilizing a Fourier optics based propagation method is developed for accurate convergence and modeling of near and far field distributions, achieving better than $π /10$ phase accuracy in reconstructed input parameters.

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Taxonomy

TopicsPhotonic and Optical Devices · Orbital Angular Momentum in Optics · Optical Polarization and Ellipsometry