Kernel formalism applied to Fourier-based wave front sensing in presence of residual phases - Archive ouverte HAL
Communication Dans Un Congrès Année : 2019

Kernel formalism applied to Fourier-based wave front sensing in presence of residual phases

Résumé

In this paper, we describe Fourier-based Wave Front Sensors (WFS) as linear integral operators, characterized by their Kernel. In a first part, we derive the dependency of this quantity with respect to the WFS's optical parameters: pupil geometry, filtering mask, tip/tilt modulation. In a second part we focus the study on the special case of convolutional Kernels. The assumptions required to be in such a regime are described. We then show that these convolutional kernels allow to drastically simplify the WFS's model by summarizing its behavior in a concise and comprehensive quantity called the WFS's Impulse Response. We explain in particular how it allows to compute the sensor's sensitivity with respect to the spatial frequencies. Such an approach therefore provides a fast diagnostic tool to compare and optimize Fourier-based WFSs. In a third part, we develop the impact of the residual phases on the sensor's impulse response, and show that the convolutional model remains valid. Finally, a section dedicated to the Pyramid WFS concludes this work, and illustrates how the slopes maps are easily handled by the convolutional model.
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Dates et versions

hal-02625309 , version 1 (26-05-2020)

Identifiants

  • HAL Id : hal-02625309 , version 1

Citer

Olivier Fauvarque, Pierre Janin-Potiron, Carlos Correia, Lauren Schatz, Yoann Brûlé, et al.. Kernel formalism applied to Fourier-based wave front sensing in presence of residual phases. 6th International Conference on Adaptive Optics for Extremely Large Telescopes, AO4ELT 2019, Jun 2019, Quebec City, Canada. ⟨hal-02625309⟩
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