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Three-dimensional measurement of small-object surfaces on the basis of fiber optic interferometric fringe projection

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posted on 2024-11-15, 15:23 authored by Xiaojie Li, Xiaojie Duan, Guangxu Li, Teng Cao, Rui Xie, Yanhua Hong, Chunxiao Tang, Enbang LiEnbang Li, Cheng Zhang, Hongqiang Li
We used a system that exploits the Mach-Zehnder interferometer structure and Young's double-pinhole interference principle to measure the three-dimensional topographies of small objects at high precision. Next, we performed phase profilometry to measure small objects and achieve a height measurement within a 10 x 10cm area. The accuracy of the measurement system improved by 44.1%, and the measurement time was reduced by 63.2%.

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Citation

Li, X., Duan, X., Li, G., Cao, T., Xie, R., Hong, Y., Tang, C., Li, E., Zhang, C. & Li, H. (2018). Three-dimensional measurement of small-object surfaces on the basis of fiber optic interferometric fringe projection. Optical Engineering, 57 (9), 094105-1-094105-9.

Journal title

Optical Engineering

Volume

57

Issue

9

Language

English

RIS ID

130711

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