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Analysis of electron multiplying charge coupled device and scientific CMOS readout noise models for Shack–Hartmann wavefront sensor accuracy.

机译：分析电子倍增电荷耦合器件和科学的CMOS读数噪声模型，以提高Shack-Hartmann波前传感器的精度。

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In recent years, detectors with subelectron readout noise have been used very effectively in astronomical adaptive optics systems. Here, we compare readout noise models for the two key faint flux level detector technologies that are commonly used: electron multiplying charge coupled device (EMCCD) and scientific CMOS (sCMOS) detectors. We find that in almost all situations, EMCCD technology is advantageous, and that the commonly used simplified model for EMCCD readout is appropriate. We also find that the commonly used simple models for sCMOS readout noise are optimistic, and we recommend that a proper treatment of the sCMOS root mean square readout noise probability distribution should be considered during instrument performance modeling and development.

机译：近年来，具有亚电子读出噪声的探测器已非常有效地用于天文自适应光学系统。在这里，我们比较常用的两种关键微弱通量水平检测器技术的读出噪声模型：电子倍增电荷耦合器件（EMCCD）和科学CMOS（sCMOS）检测器。我们发现，在几乎所有情况下，EMCCD技术都是有优势的，并且通常用于EMCCD读数的简化模型是合适的。我们还发现，常用的sCMOS读数噪声简单模型是乐观的，我们建议在仪器性能建模和开发过程中应考虑对sCMOS均方根读数噪声概率分布的正确处理。

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Basden A. G.;
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年度 2015
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正文语种 {"code":"en","name":"English","id":9}
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专利

1. High signal-to-noise ratio sensing with Shack-Hartmann wavefront sensor based on auto gain control of electron multiplying CCD [J] . Zhao-Yi Zhu, Da-Yu Li, Li-Fa Hu, 中国物理：英文版 . 2016 ,第009期

机译：基于电子倍增CCD自动增益控制的Shack-Hartmann波前传感器实现高信噪比传感
2. Fast Hartmann-Shack Wavefront Sensors Manufactured in Standard CMOS Technology [J] . Davies William de Lima Monteiro, Thomas Nirmaier, Gleb V. Vdovin, IEEE sensors journal . 2005 ,第5期

机译：采用标准CMOS技术制造的快速Hartmann-Shack波前传感器
3. Integration of a photodiode array and centroid processing on a single CMOS chip for a real-time shack-Hartmann wavefront sensor [J] . Boon Hean Pui, Hayes-Gill B., Clark M., IEEE sensors journal . 2004 ,第6期

机译：光电二极管阵列和质心处理在单个CMOS芯片上的集成，用于实时Shack-Hartmann波前传感器
4. Electron Multiplying CMOS as Shack-Hartmann wavefront sensor [C] . Buton C., Fereyre P., Fournier M., Conference on high energy, optical, and infrared detectors for astronomy VII . 2016

机译：电子倍增CMOS作为Shack-Hartmann波前传感器
5. Defining ray sets for the analysis of lenslet-based optical systems including plenoptic cameras and Shack-Hartmann wavefront sensors. [D] . Moore, Lori. 2014

机译：定义光线集以分析基于小透镜的光学系统，包括全光摄像机和Shack-Hartmann波前传感器。
6. Impact of CMOS Pixel and Electronic Circuitry in the Performance of a Hartmann-Shack Wavefront Sensor [O] . Úrsula Vasconcelos Abecassis, Davies William de Lima Monteiro, Luciana Pedrosa Salles, 2018

机译：CMOS像素和电子电路对Hartmann-Shack波前传感器性能的影响
7. CMOS optical centroid processor for an integrated Shack-Hartmann wavefront sensor [O] . Pui Boon Hean 100

机译：用于集成shack-Hartmann波前传感器的CmOs光学质心处理器

Analysis of electron multiplying charge coupled device and scientific CMOS readout noise models for Shack–Hartmann wavefront sensor accuracy.

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