Nonlinear spline wavefront reconstruction through moment-based Shack-Hartmann sensor measurements

We propose a spline-based aberration reconstruction method through moment measurements (SABRE-M). The method uses first and second moment information from the focal spots of the SH sensor to reconstruct the wavefront with bivariate simplex B-spline basis functions. The proposed method, since it prov...

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Published in:Optics express 2017-05, Vol.25 (10), p.11514-11529
Main Authors: Viegers, M, Brunner, E, Soloviev, O, de Visser, C C, Verhaegen, M
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Language:English
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container_end_page 11529
container_issue 10
container_start_page 11514
container_title Optics express
container_volume 25
creator Viegers, M
Brunner, E
Soloviev, O
de Visser, C C
Verhaegen, M
description We propose a spline-based aberration reconstruction method through moment measurements (SABRE-M). The method uses first and second moment information from the focal spots of the SH sensor to reconstruct the wavefront with bivariate simplex B-spline basis functions. The proposed method, since it provides higher order local wavefront estimates with quadratic and cubic basis functions can provide the same accuracy for SH arrays with a reduced number of subapertures and, correspondingly, larger lenses which can be beneficial for application in low light conditions. In numerical experiments the performance of SABRE-M is compared to that of the first moment method SABRE for aberrations of different spatial orders and for different sizes of the SH array. The results show that SABRE-M is superior to SABRE, in particular for the higher order aberrations and that SABRE-M can give equal performance as SABRE on a SH grid of halved sampling.
doi_str_mv 10.1364/OE.25.011514
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title Nonlinear spline wavefront reconstruction through moment-based Shack-Hartmann sensor measurements
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