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Updated: Jul 10, 2025

The Generation of Higher-order Laguerre-Gauss Optical Beams for High-precision Interferometry
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Method Comparison for Simulating Non-Gaussian Beams and Diffraction for Precision Interferometry.

Mengyuan Zhao1,2,3, Yazheng Tao4,2,5, Kevin Weber6,3

  • 1Key Laboratory of Electronics and Information Technology for Space System, National Space Science Center, Chinese Academy of Sciences, No.1 Nanertiao, Zhongguancun, Haidian District, Beijing 100190, China.

Sensors (Basel, Switzerland)
|November 25, 2023
PubMed
Summary
This summary is machine-generated.

Comparing the Mode Expansion Method (MEM) and Gaussian Beam Decomposition (GBD) for laser interferometer simulations, this study finds MEM excels with non-clipped beams, while GBD is more precise for clipped beams and surface interactions.

Keywords:
diffractionoptical simulationspace interferometry

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Area of Science:

  • Optical physics
  • Computational optics
  • Interferometry

Background:

  • Precision laser interferometers are crucial for applications like gravitational wave detection.
  • Accurate wavefront decomposition is essential for simulating these complex optical systems.
  • Existing methods like MEM and GBD have different strengths and weaknesses.

Purpose of the Study:

  • To compare the precision and applicability of the Mode Expansion Method (MEM) and Gaussian Beam Decomposition (GBD).
  • To define and analyze errors associated with wavefront decomposition methods.
  • To evaluate method performance across various optical scenarios, including extreme distances and aberrations.

Main Methods:

  • Defined specific error types to quantitatively assess MEM and GBD performance.
  • Developed a fair comparison framework for the two wavefront decomposition techniques.
  • Tested methods on analytic cases: non-clipped and clipped Gaussian beams, astigmatic beams.
  • Simulated performance in near, far, and extremely far fields (millions of kilometers).
  • Evaluated method accuracy with aberrated wavefronts and reflections from curved mirrors.

Main Results:

  • Both MEM and GBD are generally applicable for non-Gaussian beam decomposition.
  • MEM demonstrated higher accuracy for non-clipped Gaussian beams.
  • GBD showed greater precision for clipped Gaussian beams and simulations involving surface interactions.
  • Method accuracy is contingent on the specific optical system and simulation parameters.

Conclusions:

  • The choice between MEM and GBD depends on the specific requirements of the optical simulation.
  • MEM is preferred for simulations prioritizing accuracy of non-clipped beam propagation.
  • GBD is more suitable for scenarios involving beam clipping or complex optical surface interactions.
  • This comparative analysis provides guidance for selecting the optimal wavefront decomposition method in optical simulations.