19-picometer mechanical step displacement measurement using heterodyne interferometer with phase-locked loop and piezoelectric driving flexure-stage

Fig. 10 Step displacement measurement results obtained by the proposed method using the parallel spring stage with the PZT actuator (PI, P-245.20, sensitivity =3.7 nm/V, resonant frequency ∼700 Hz) for the four-pass heterodyne interferometer: (a) step = 76 pm (∼6 mrad), (b) step = 38 pm (∼3 mrad), a...

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Published in:Sensors and actuators. A. Physical. 2020-04, Vol.304, p.111880, Article 111880
Main Authors: Nguyen, Thanh Dong, Duong, Quang Anh, Higuchi, Masato, Vu, Thanh Tung, Wei, Dong, Aketagawa, Masato
Format: Article
Language:English
Subjects:
Actuators
Displacement measurement
Electronics
Flexing
Floors
Heterodyne
Interferometers
Interferometry
Low pass filters
Measurement
Noise floor
Null method
Phase locked loops
Phase locked systems
Phase shifter
Phase shifters
Phase-locked loop
Piezoelectricity
Resolution
Studies
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Summary:Fig. 10 Step displacement measurement results obtained by the proposed method using the parallel spring stage with the PZT actuator (PI, P-245.20, sensitivity =3.7 nm/V, resonant frequency ∼700 Hz) for the four-pass heterodyne interferometer: (a) step = 76 pm (∼6 mrad), (b) step = 38 pm (∼3 mrad), and (c) step = 19 pm (∼1.5 mrad). [Display omitted] In this paper, we discuss 20-picometer-order mechanical step displacement measurements using a heterodyne interferometer with a phase-locked loop (PLL) and two piezoelectric (PZT) driving flexure-stages. First, the phase meter for heterodyne interferometry using one simple digital PLL is developed. Two inputs and one output of the single PLL are the reference and measurement signals of the heterodyne interferometer and the phase shift due to the movement of the target mirror, respectively. The PLL includes an active phase shifter, a mixer (multiplier), a low-pass filter combined with an averaging operation, and an integrator. In electronics evaluation of the PLL, the PLL shows a phase resolution of 174 μrad with 4.2 μrad noise (standard deviation) and a phase noise floor of 3 μrad/√Hz above 0.2 Hz with an output sampling rate of 200 Hz. Using the single PLL, a four-pass normal commercial heterodyne interferometer, and high-stiff-parallel spring stage driven by PZT actuator, we demonstrate the actuations and measurements of mechanical step displacements of 19 pm (1.5 mrad) and a displacement noise floor of 1.1 pm/√Hz (90 μrad/√Hz) above 1 Hz in normal air. In the paper, the principle, instrumentation, and experimental results are discussed.
ISSN:0924-4247
1873-3069
DOI:10.1016/j.sna.2020.111880