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Main Authors: Łukowicz, Magdalena, Korzeniewska, Aleksandra, Kalinowski, Kamil, Cichowski, Rafał, Porras-Aguilar, Rosario, Szatkowski, Mateusz
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.07998
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author Łukowicz, Magdalena
Korzeniewska, Aleksandra
Kalinowski, Kamil
Cichowski, Rafał
Porras-Aguilar, Rosario
Szatkowski, Mateusz
author_facet Łukowicz, Magdalena
Korzeniewska, Aleksandra
Kalinowski, Kamil
Cichowski, Rafał
Porras-Aguilar, Rosario
Szatkowski, Mateusz
contents The term wavefront sensor refers to the entire class of devices capable of measuring the optical wavefront of the incoming beam. Although numerous solutions have been proposed so far, recent advances in structured light have opened new development possibilities through controlled modification of optical field amplitude and phase. We present an alternative approach to angle-based sensing, introducing optical vortices stable phase singularities within each subaperture of the Shack-Hartmann (S-H) architecture. Rather than changing the fundamental angle-based operating principle, it transforms the tracked quantity and its detection method. The presence of a singularity enables a dedicated tracking algorithm that outperforms conventional methods without increasing computational complexity. We evaluated its performance against the conventional S-H across a broad SNR range (from 2 to 22), corresponding to shot noise limited to high saturation regimes, demonstrating lower mean residual phase variance across all conditions. This work demonstrates that structured beam shaping can extend the capabilities of traditional S-H architectures without requiring fundamental redesign.
format Preprint
id arxiv_https___arxiv_org_abs_2510_07998
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Accurate and Noise-Robust Wavefront Reconstruction with an Optical Vortex Wavefront Sensor
Łukowicz, Magdalena
Korzeniewska, Aleksandra
Kalinowski, Kamil
Cichowski, Rafał
Porras-Aguilar, Rosario
Szatkowski, Mateusz
Optics
The term wavefront sensor refers to the entire class of devices capable of measuring the optical wavefront of the incoming beam. Although numerous solutions have been proposed so far, recent advances in structured light have opened new development possibilities through controlled modification of optical field amplitude and phase. We present an alternative approach to angle-based sensing, introducing optical vortices stable phase singularities within each subaperture of the Shack-Hartmann (S-H) architecture. Rather than changing the fundamental angle-based operating principle, it transforms the tracked quantity and its detection method. The presence of a singularity enables a dedicated tracking algorithm that outperforms conventional methods without increasing computational complexity. We evaluated its performance against the conventional S-H across a broad SNR range (from 2 to 22), corresponding to shot noise limited to high saturation regimes, demonstrating lower mean residual phase variance across all conditions. This work demonstrates that structured beam shaping can extend the capabilities of traditional S-H architectures without requiring fundamental redesign.
title Accurate and Noise-Robust Wavefront Reconstruction with an Optical Vortex Wavefront Sensor
topic Optics
url https://arxiv.org/abs/2510.07998