Calibration method of the right-angle error of a hollow corner-cube retroreflector based on an independent autocollimator

Calibration method of the right-angle error of a hollow corner-cube retroreflector based on an independent autocollimator

Hollow corner-cube retroreflectors (HCCRs) are an essential reflection component of next-generation lunar laser-ranging technology. The verticality among the three reflectors, known as the right-angle error, is a critical parameter that affects the emission performance, and thus, should be correctly...

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Veröffentlicht in:Applied optics (2004) 2024-01, Vol.63 (3), p.668-675
Hauptverfasser: Li, Renpu, Huo, Yujia, Yan, Juan, Wen, Dandan, Konyakhin, Igor, Dang, Dinhduan, Zhou, Xingye, Huang, Guifu, Ma, Yong
Format: Artikel
Sprache:eng
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Coordinate transformations
Error analysis
Laser ranging
Lunar rangefinding
Mathematical analysis
Measurement methods
Parameters
Reflectors
Retroreflectors
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container_end_page 675
container_issue 3
container_start_page 668
container_title Applied optics (2004)
container_volume 63
creator Li, Renpu
Huo, Yujia
Yan, Juan
Wen, Dandan
Konyakhin, Igor
Dang, Dinhduan
Zhou, Xingye
Huang, Guifu
Ma, Yong
description Hollow corner-cube retroreflectors (HCCRs) are an essential reflection component of next-generation lunar laser-ranging technology. The verticality among the three reflectors, known as the right-angle error, is a critical parameter that affects the emission performance, and thus, should be correctly measured and calibrated. However, conventional methods measure the three right-angle errors separately, which can induce error superposition during the measurement process. A one-time measurement method was developed for the three right-angle errors of the HCCR using a single autocollimator (AC). The method establishes a mathematical relationship between the right-angle error of the HCCR and the angle offset of the reflected beam, and it considers the observation coordinates of the AC simultaneously to perform the coordinate transformation of the relationship parameters. The corresponding measurement equation was derived to extract the three-plane right-angle error of the HCCR using the measured readings of a single AC. In addition, a HCCR was designed to freely adjust the angle of the two reflective surfaces and used to simulate the different states of the three right-angle errors in practice. The measurement results show that the root-mean-square error of the proposed method in all right-angle error states is smaller than 16 .
doi_str_mv 10.1364/AO.510872
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source Alma/SFX Local Collection; Optica Publishing Group Journals
subjects Coordinate transformations
Error analysis
Laser ranging
Lunar rangefinding
Mathematical analysis
Measurement methods
Parameters
Reflectors
Retroreflectors
title Calibration method of the right-angle error of a hollow corner-cube retroreflector based on an independent autocollimator
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