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Three-Dimensional Nano-displacement Measurement by Four-Beam Laser Interferometry

Xu Zhang, Zi Wang, Mengnan Liu, Zhengxun Song, Zuobin Wang, Litong Dong, Zuobin Wang, Litong Dong

2024Nanomanufacturing and Metrology19 citationsDOIOpen Access PDF

Abstract

Abstract A 3D nano-displacement measurement method, where the difference in phase between the beams in a four-beam laser interference is changed, is proposed. Simulation results demonstrate that the variation of phase difference causes the deviation of the interference pattern in the laser interference system. Based on this theory, we design and build a four-beam laser interference system. The corner cube prism in the optical path is shifted, and the phase of the beam is changed by applying different voltages to a piezoelectric stage. The phase difference is obtained by analyzing the lattice pattern with subpixel precision, and then the displacement is determined by correlation operation. The experimental measurement results are consistent with the theoretical analysis, thereby verifying the feasibility of this measurement method.

Topics & Concepts

OpticsSubpixel renderingOptical path lengthInterferometryInterference (communication)Displacement (psychology)LaserOptical pathBeam (structure)PrismPhase (matter)PhysicsMaterials scienceComputer sciencePixelPsychologyPsychotherapistChannel (broadcasting)Computer networkQuantum mechanicsAdvanced Measurement and Metrology TechniquesOptical measurement and interference techniquesSurface Roughness and Optical Measurements
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