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Hauptverfasser: Zhao, Zimo, Ma, Yifei, Song, Zipei, Antonello, Jacopo, Cui, Jiahe, Chen, Binguo, Wang, Jingyu, Sun, Bangshan, He, Honghui, Luo, Lin, Fells, Julian A. J., Elston, Steve J., Booth, Martin J., Morris, Stephen M., He, Chao
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2405.16289
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author Zhao, Zimo
Ma, Yifei
Song, Zipei
Antonello, Jacopo
Cui, Jiahe
Chen, Binguo
Wang, Jingyu
Sun, Bangshan
He, Honghui
Luo, Lin
Fells, Julian A. J.
Elston, Steve J.
Booth, Martin J.
Morris, Stephen M.
He, Chao
author_facet Zhao, Zimo
Ma, Yifei
Song, Zipei
Antonello, Jacopo
Cui, Jiahe
Chen, Binguo
Wang, Jingyu
Sun, Bangshan
He, Honghui
Luo, Lin
Fells, Julian A. J.
Elston, Steve J.
Booth, Martin J.
Morris, Stephen M.
He, Chao
contents Adaptive optics (AO) is a powerful tool employed across various research fields, from aerospace to microscopy. Traditionally, AO has focused on correcting optical phase aberrations, with recent advances extending to polarisation compensation. However, intensity errors are also prevalent in optical systems, yet effective correction methods are still in their infancy. Here, we introduce a novel AO approach, termed intensity adaptive optics (I-AO), which employs a dual-feedback loop mechanism to first address non-uniform intensity distribution and subsequently compensate for energy loss at the pupil plane. We demonstrate that I-AO can operate in both sensor-based and sensorless formats and validate its feasibility by quantitatively analysing the focus quality of an aberrated system. This technique expands the AO toolkit, paving the way for next-generation AO technology.
format Preprint
id arxiv_https___arxiv_org_abs_2405_16289
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Intensity adaptive optics
Zhao, Zimo
Ma, Yifei
Song, Zipei
Antonello, Jacopo
Cui, Jiahe
Chen, Binguo
Wang, Jingyu
Sun, Bangshan
He, Honghui
Luo, Lin
Fells, Julian A. J.
Elston, Steve J.
Booth, Martin J.
Morris, Stephen M.
He, Chao
Optics
Adaptive optics (AO) is a powerful tool employed across various research fields, from aerospace to microscopy. Traditionally, AO has focused on correcting optical phase aberrations, with recent advances extending to polarisation compensation. However, intensity errors are also prevalent in optical systems, yet effective correction methods are still in their infancy. Here, we introduce a novel AO approach, termed intensity adaptive optics (I-AO), which employs a dual-feedback loop mechanism to first address non-uniform intensity distribution and subsequently compensate for energy loss at the pupil plane. We demonstrate that I-AO can operate in both sensor-based and sensorless formats and validate its feasibility by quantitatively analysing the focus quality of an aberrated system. This technique expands the AO toolkit, paving the way for next-generation AO technology.
title Intensity adaptive optics
topic Optics
url https://arxiv.org/abs/2405.16289