Differential confocal self-collimation method for high-accuracy measurements of lens decentration

Xiaohang Wang; Lirong Qiu; Hong Ge; Yun Wang; Weiqian Zhao

doi:10.1364/OE.389622

Differential confocal self-collimation method for high-accuracy measurements of lens decentration

Xiaohang Wang, Lirong Qiu, Hong Ge, Yun Wang^*, Weiqian Zhao

^*Corresponding author for this work

School of Optics and Photonics

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

A differential confocal self-collimation decentration measurement method (DCSDM) is proposed. It uses the differential confocal method to precisely identify the center and vertex positions of the tested lens surface, thereby obtaining the radius of curvature. Then, it uses the self-collimation light-path to detect the position of the reflected light during the rotation of the tested surface, thereby obtaining the center bias. Finally, it calculates the decentration. Theoretical analysis and experiments indicate that DCSDM achieves an accuracy of 0.069”. Compared with existing methods, DCSDM significantly reduces the focusing error by using differential techniques, prevents multiple clamping errors by integrating the radius and center bias measurements in one system, and is a feasible method for decentration measurement.

Original language	English
Pages (from-to)	12058-12070
Number of pages	13
Journal	Optics Express
Volume	28
Issue number	8
DOIs	https://doi.org/10.1364/OE.389622
Publication status	Published - 13 Apr 2020

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Wang, X., Qiu, L., Ge, H., Wang, Y., & Zhao, W. (2020). Differential confocal self-collimation method for high-accuracy measurements of lens decentration. Optics Express, 28(8), 12058-12070. https://doi.org/10.1364/OE.389622

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title = "Differential confocal self-collimation method for high-accuracy measurements of lens decentration",

abstract = "A differential confocal self-collimation decentration measurement method (DCSDM) is proposed. It uses the differential confocal method to precisely identify the center and vertex positions of the tested lens surface, thereby obtaining the radius of curvature. Then, it uses the self-collimation light-path to detect the position of the reflected light during the rotation of the tested surface, thereby obtaining the center bias. Finally, it calculates the decentration. Theoretical analysis and experiments indicate that DCSDM achieves an accuracy of 0.069”. Compared with existing methods, DCSDM significantly reduces the focusing error by using differential techniques, prevents multiple clamping errors by integrating the radius and center bias measurements in one system, and is a feasible method for decentration measurement.",

author = "Xiaohang Wang and Lirong Qiu and Hong Ge and Yun Wang and Weiqian Zhao",

note = "Publisher Copyright: {\textcopyright} 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement",

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AU - Qiu, Lirong

AU - Ge, Hong

AU - Wang, Yun

AU - Zhao, Weiqian

PY - 2020/4/13

Y1 - 2020/4/13

N2 - A differential confocal self-collimation decentration measurement method (DCSDM) is proposed. It uses the differential confocal method to precisely identify the center and vertex positions of the tested lens surface, thereby obtaining the radius of curvature. Then, it uses the self-collimation light-path to detect the position of the reflected light during the rotation of the tested surface, thereby obtaining the center bias. Finally, it calculates the decentration. Theoretical analysis and experiments indicate that DCSDM achieves an accuracy of 0.069”. Compared with existing methods, DCSDM significantly reduces the focusing error by using differential techniques, prevents multiple clamping errors by integrating the radius and center bias measurements in one system, and is a feasible method for decentration measurement.

AB - A differential confocal self-collimation decentration measurement method (DCSDM) is proposed. It uses the differential confocal method to precisely identify the center and vertex positions of the tested lens surface, thereby obtaining the radius of curvature. Then, it uses the self-collimation light-path to detect the position of the reflected light during the rotation of the tested surface, thereby obtaining the center bias. Finally, it calculates the decentration. Theoretical analysis and experiments indicate that DCSDM achieves an accuracy of 0.069”. Compared with existing methods, DCSDM significantly reduces the focusing error by using differential techniques, prevents multiple clamping errors by integrating the radius and center bias measurements in one system, and is a feasible method for decentration measurement.

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Differential confocal self-collimation method for high-accuracy measurements of lens decentration

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