即插即用自适应光学显微镜,利用等平面斑块估算和场分割进行全场校正。

IF 3.2 2区 物理与天体物理 Q2 OPTICS
Optics express Pub Date : 2024-11-04 DOI:10.1364/OE.533494
Alex Dorn, Hans Zappe, Çağlar Ataman
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引用次数: 0

摘要

我们讨论了用于商用显微镜的即插即用自适应光学(AO)模块的实施和性能,该模块包括间接波前传感和直接位于物镜与转塔之间的可变形相位板(DPP)。由于 DPP 位于该位置,该系统非常类似于瞳孔-AO 方案,因此只能在等面斑内进行有效的像差校正。我们通过平行估算多个场点的像差轮廓,并依次进行校正,以获得高质量子孔径图像的二维阵列,从而克服了这一局限性。然后将这些图像拼接在一起,形成校正后的全场图像。为了在不影响校正质量的前提下最大限度地缩短测量时间,我们提出了一种经验方法来确定等平面斑块的大小,这与样本和系统有关。将场段大小与等面补丁大小相匹配,可在整个图像的一致校正质量和测量时间之间实现最佳折衷。我们使用合成样本在商用显微镜中演示了所开发系统的性能,并讨论了该系统的性能和局限性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plug-and-play adaptive optics microscopy with full-field correction using isoplanatic patch estimation and field segmentation.

We discuss the implementation and performance of a plug-play adaptive optics (AO) module for commercial microscopes comprising indirect wavefront sensing, and a deformable phase plate (DPP) located directly between the objective and the turret. With the DPP at this location, the system closely resembles a pupil-AO scheme, in which effective aberration correction is only possible within the isoplanatic patch. We overcome this limitation by estimating the aberration profiles at multiple field points in parallel and correcting them in sequence to obtain a 2D array of high-quality sub-aperture images. These are then stitched together to form a corrected full-field image. To minimize the measurement time without compromising correction quality, we propose an empirical method to identify the size of the isoplanatic patch, which is both sample and system dependent. Matching the field segment size to that of the isoplanatic patch provides the best compromise between consistent correction quality across the image and measurement time. We demonstrate the performance of the developed system in a commercial microscope using synthetic samples and discuss the performance and limitations of the system.

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来源期刊
Optics express
Optics express 物理-光学
CiteScore
6.60
自引率
15.80%
发文量
5182
审稿时长
2.1 months
期刊介绍: Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.
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