Angles-centroids fitting calibration and the centroid algorithm applied to reverse Hartmann test

In this paper, we develop an angles-centroids fitting (ACF) system and the centroid algorithm to calibrate the reverse Hartmann test (RHT) with sufficient precision. The essence of ACF calibration is to establish the relationship between ray angles and detector coordinates. Centroids computation is...

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Bibliographic Details
Published in:Review of scientific instruments 2017-02, Vol.88 (2), p.023111-023111
Main Authors: Zhao, Zhu, Hui, Mei, Xia, Zhengzheng, Dong, Liquan, Liu, Ming, Liu, Xiaohua, Kong, Lingqin, Zhao, Yuejin
Format: Article
Language:English
Subjects:
Algorithms
Calibration
Centroids
Computation
Datum (elevation)
Image quality
Pixels
Point spread functions
Scientific apparatus & instruments
Tracking
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Summary:In this paper, we develop an angles-centroids fitting (ACF) system and the centroid algorithm to calibrate the reverse Hartmann test (RHT) with sufficient precision. The essence of ACF calibration is to establish the relationship between ray angles and detector coordinates. Centroids computation is used to find correspondences between the rays of datum marks and detector pixels. Here, the point spread function of RHT is classified as circle of confusion (CoC), and the fitting of a CoC spot with 2D Gaussian profile to identify the centroid forms the basis of the centroid algorithm. Theoretical and experimental results of centroids computation demonstrate that the Gaussian fitting method has a less centroid shift or the shift grows at a slower pace when the quality of the image is reduced. In ACF tests, the optical instrumental alignments reach an overall accuracy of 0.1 pixel with the application of laser spot centroids tracking program. Locating the crystal at different positions, the feasibility and accuracy of ACF calibration are further validated to 10−6–10−4 rad root-mean-square error of the calibrations differences.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.4975589