Two-dimensional grating interferometer with nanometer accuracy

Author:

Ban Yaowen1ORCID,Zhao Guobo12,Liu Hui1,Zhang Zhenghui1,Chen Bangdao1,Lu Bingheng1,Liu Hongzhong1ORCID

Affiliation:

1. State Key Laboratory for Manufacturing Systems Engineering, Xi’an Jiaotong University 1 , Xi’an 710049, China

2. Inspur Digital Enterprise Technology Co., Ltd. 2 , Jinan 250101, China

Abstract

A two-dimensional grating interferometer with the nanometer accuracy is proposed, which employs a transmissive two-dimensional diffraction grating and a corner cube prism in its optical configuration. The distinctive features of this optical path configuration are as follows: (i) Fourfold optical subdivision is achieved based on the principle of secondary diffraction, enhancing optical subdivision capability. (ii) The utilization of a corner cube prism configuration enables parallel retroreflection of diffracted light, facilitating ease of optical alignment. Utilizing a two-dimensional transmissive grating with a period of 4 µm (resulting in an optical signal period of 1 µm after fourfold optical subdivision), the two-dimensional grating interferometer achieves measurement resolutions better than 8 nm along the x and y directions. Within a 100 µm range, the grating displacement errors are superior to ±38 and ±36 nm. The repeatability (standard deviation of error) during a reciprocating motion with a 4 µm stroke is superior to 14 nm. The proposed two-dimensional grating interferometer enables nanoscale resolution measurements, showcasing notable linear measurement capabilities and repeatability. It finds potential applications in ultra-accuracy positioning and machining equipment. The utilization of gratings with smaller periods holds the promise of realizing picometer-level measurement potential.

Funder

Fundamental Research Funds for the Central Universities

Publisher

AIP Publishing

Subject

General Physics and Astronomy

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