10-pm-order mechanical displacement measurements using heterodyne interferometry

10-pm-order mechanical displacement measurements using heterodyne interferometry

In this paper, we present 10-pm-order mechanical displacement measurements using heterodyne interferometry. The measuring system includes a single-path heterodyne interferometer and a phase meter based on a phase-locked loop (PLL). It is not easy to measure a mechanical displacement of 10 pm or less...

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Veröffentlicht in:Applied optics (2004) 2020-09, Vol.59 (27), p.8478-8485
Hauptverfasser: Dong Nguyen, Thanh, Higuchi, Masato, Tung Vu, Thanh, Wei, Dong, Aketagawa, Masato
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Displacement
Evaluation
Field programmable gate arrays
Flexing
Floors
Interferometry
Noise
Noise measurement
Noise reduction
Phase locked loops
Phase locked systems
Piezoelectricity
Signal processing
Vacuum chambers
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container_end_page 8485
container_issue 27
container_start_page 8478
container_title Applied optics (2004)
container_volume 59
creator Dong Nguyen, Thanh
Higuchi, Masato
Tung Vu, Thanh
Wei, Dong
Aketagawa, Masato
description In this paper, we present 10-pm-order mechanical displacement measurements using heterodyne interferometry. The measuring system includes a single-path heterodyne interferometer and a phase meter based on a phase-locked loop (PLL). It is not easy to measure a mechanical displacement of 10 pm or less owing to electronics and environmental noises in the interferometer. To solve this problem, the improvement of the noise floor is required for the phase meter. A PLL algorithm, which is programmed on a field-programmable gate array module, is used for efficient noise reduction of the phase meter. The interferometer combined with a stiff piezoelectric flexure stage is placed in a vacuum chamber. The measurement comparisons and the noise floor evaluations are performed between air and vacuum to evaluate effects from their environments. The interferometer has two spatially separated beams with different frequencies and two balanced optical arms. The measurement results demonstrate that the system combined with the above components is capable of measuring mechanical displacements of 11 pm in air and vacuum. A noise floor of 0.2 pm/ H z between 50 Hz and 100 Hz can be obtained in vacuum. In this paper, the setup of the interferometer, the signal processing of the PLL, experiments, and results are discussed.
doi_str_mv 10.1364/AO.400682
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The measuring system includes a single-path heterodyne interferometer and a phase meter based on a phase-locked loop (PLL). It is not easy to measure a mechanical displacement of 10 pm or less owing to electronics and environmental noises in the interferometer. To solve this problem, the improvement of the noise floor is required for the phase meter. A PLL algorithm, which is programmed on a field-programmable gate array module, is used for efficient noise reduction of the phase meter. The interferometer combined with a stiff piezoelectric flexure stage is placed in a vacuum chamber. The measurement comparisons and the noise floor evaluations are performed between air and vacuum to evaluate effects from their environments. The interferometer has two spatially separated beams with different frequencies and two balanced optical arms. The measurement results demonstrate that the system combined with the above components is capable of measuring mechanical displacements of 11 pm in air and vacuum. A noise floor of 0.2 pm/ H z between 50 Hz and 100 Hz can be obtained in vacuum. 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source Alma/SFX Local Collection; Optica Publishing Group Journals
subjects Algorithms
Displacement
Evaluation
Field programmable gate arrays
Flexing
Floors
Interferometry
Noise
Noise measurement
Noise reduction
Phase locked loops
Phase locked systems
Piezoelectricity
Signal processing
Vacuum chambers
title 10-pm-order mechanical displacement measurements using heterodyne interferometry
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