Error analysis and threshold selection in model-based wavefront sensorless adaptive optics system

Jin-long Liu , Hui-zhen Yang , Xin Li , Zhou Fang

Optoelectronics Letters ›› 2020, Vol. 16 ›› Issue (5) : 327 -332.

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Optoelectronics Letters ›› 2020, Vol. 16 ›› Issue (5) : 327 -332. DOI: 10.1007/s11801-020-9182-2
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Error analysis and threshold selection in model-based wavefront sensorless adaptive optics system

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Abstract

Accurate values of masked detector signal (MDS) is the key to the correction capability of wavefront sensorless (WFSless) model-based adaptive optics (AO) system. However, imaging detectors always carry different kinds of noises in real applications, which make MDS deviate from theoretical results. Calculation errors of MDS suffered from the noise were analyzed through theory and simulation. Additionally, considering the method of threshold is usually used to mitigate the noise, we also discussed the influence of threshold on MDS. Results showed that the simulation is consistent with the theory and there exists an optimal threshold to make the error minimum for different noise. A fitting formula, which can accurately calculate optimal thresholds, was proposed based on the simulated data. Above results can provide a plausible method and theoretical basis to mitigate imaging noise of detectors in real applications.

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Jin-long Liu, Hui-zhen Yang, Xin Li, Zhou Fang. Error analysis and threshold selection in model-based wavefront sensorless adaptive optics system. Optoelectronics Letters, 2020, 16(5): 327-332 DOI:10.1007/s11801-020-9182-2

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

RobertK. Tyson, 2015, New York, CRC Press
[2]

MullerR A, BuffingtonA. Journal of the Optical Society of America A, 1974, 64: 1200

[3]

Chao-JunN, Shi-JieY, Xiang-EH. Laser & Optoelectronics Progress, 2015, 52: 69(in Chinese)
[4]

HeidiH, NripunS, HopeQ, LiC, JasonP. Optics Express, 2011, 19: 14160

[5]

JamesP, DavidC, EliC, BrentonK, PriyathsmS, ScottW, MichaelJ, JosephA, SinaF. Optics Letters, 2017, 42: 17

[6]

PozziP, WildingD, SolovievO, VerstraeteH, BliekL, VdovinG, VerhaegenM. Optics Express, 2017, 25: 949

[7]

ChaoG, Xin-YangL, Xue-JueZ, Chang-HuiR. Optics Communications, 2011, 284: 5531

[8]

VorontsovM A, CarhartG W, MarcC, GertC. Journal of the Optical Society of America A, 2000, 17: 1440

[9]

Hui-ZhenY, Xin-YangL, Cheng-LongG, Wen-HanJ. Optics Express, 2009, 17: 3052

[10]

BoothM J. Optics Letters, 2007, 32: 5

[11]

Lin-HaiH. Chinese Physics Letters, 2014, 31: 094205

[12]

YangH, SolovievO, VerhaegenM. Optics Express, 2015, 23: 24587

[13]

Yuan-XingH, Xin-YangL. Opitcs and Laser Technology, 2013, 45: 671

[14]

Zhi-ChengZ. Acta Scicentiarum Naturalum Univer-sitis Pekinesis, 1988, 5: 605
[15]

Gen-RuiC, XinY. Optical Engineering, 1994, 33: 2331

[16]

RoddierN. Optical Engineering, 1990, 29: 1174

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