Picometer differential wavefront metrology by nonlinear Zernike wavefront sensing for LUVOIR

机译：LUVOIR的非线性Zernike波前传感实现皮克计差分波前测量

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We propose the Nonlinear Zernike wavefront sensor (NLZWFS) for out-of-band differential wavefront sensing to augment primary mirror stability on LUVOIR and similar mission concepts during exoplanet coronagraphy. This new data analysis paradigm involving a full polychromatic scalar physical optics model for the phase-shifting Zernike wavefront sensor removes the linearity assumptions which would otherwise prevent accurate sensing. We show Monte-Carlo simulations of NLZWFS and focus-diverse phase retrieval to understand the exposure times necessary to achieve picometer-level stability in the telescope wavefront.

机译：我们提出了非线性Zernike波前传感器（NLZWFS），用于带外差动波前感测，以增加劳沃尔血管血管冠状动脉的鲁沃尔和类似的任务概念上的主要镜像稳定性。这种新的数据分析范例涉及相移Zernike波前传感器的全多色谱标量理光学模型去除线性假设，否则将防止精确感测。我们展示了Monte-Carlo模拟NLZWFS和焦点多样的阶段检索，以了解在望远镜波前在望远镜上实现微微率级稳定性所需的曝光时间。

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《SPIE Astronomical Telescopes + Instrumentation Conference》|2018年|1069841.1-1069841.10|共10页
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Dustin B. Moore; David C. Redding;
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optical metrology; wavefront sensing; Zernike wavefront sensor; phase retrieval;

机译：光学计量波前感应Zernike波前传感器;相位检索;

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1. Beam geometry, alignment, and wavefront aberration effects on interferometric differential wavefront sensing [J] . Yu Xiangzhi, Gillmer S. R., Ellis J. D. Measurement Science & Technology . 2015,第12期

机译：光束几何形状，对准和波前像差对干涉式差分波前感测的影响
2. High Sensitivity Wavefront Sensing with a Nonlinear Curvature Wavefront Sensor [J] . Guyon O Publications of the Astronomical Society of the Pacific . 2010,第887期

机译：非线性曲率波阵面传感器的高灵敏度波阵面传感
3. Advances in X-ray optics: From metrology characterization to wavefront sensing-based optimization of active optics [J] . Daniele Cocco, Mourad Idir, Daniel Morton, Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment . 2018,第NOVa1期

机译：X射线光学技术的进展：从计量学表征到基于波前感测的有源光学器件的优化
4. Picometer differential wavefront metrology by nonlinear Zernike wavefront sensing for LUVOIR [C] . Dustin B. Moore, David C. Redding SPIE Conference on Space Telescopes and Instrumentation: Optical, Infrared, and Millimeter Wave . 2018

机译：Luvoir非线性Zernike波前感应皮影率差动波前测量
5. Measuring and modeling intraocular light scatter with Shack-Hartmann wavefront sensing and the effects of nuclear cataract on the measurement of wavefront error. [D] . Donnelly, William J., III. 2005

机译：利用Shack-Hartmann波前传感测量和建模眼内光散射，以及核白内障对波前误差的测量。
6. Adaptive wavefront correction in two-photon microscopy using coherence-gated wavefront sensing [O] . Markus Rueckel, Julia A. Mack-Bucher, Winfried Denk 2006

机译：相干门控波前传感在双光子显微镜中的自适应波前校正
7. Adaptive Wavefront Control using a Nonlinear Zernike Filter [O] . Justh, Eric W., Vorontsov, Mikhail A., Carhart, Gary W., 2001

机译：使用非线性Zernike滤波器的自适应波前控制
8. Deconvolution from Wavefront Sensing Using Optimal Wavefront Estimators [R] . Maethner, S. R. 1996

机译：利用最优波前估计器进行波前传感的反卷积

Picometer differential wavefront metrology by nonlinear Zernike wavefront sensing for LUVOIR

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