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Design for a Highly Stable Laser Source Based on the Error Model of High-Speed High-Resolution Heterodyne Interferometers

Hongxing Yang, Ziqi Yin, Ruitao Yang, Pengcheng Hu, Jing Li, Jiubin Tan

2020Sensors16 citationsDOIOpen Access PDF

Abstract

Heterodyne interferometers with two opposite Doppler shift interference signals have been proposed for high-resolution measurement with high measurement speed, which can be used in the background of high-speed high-resolution measurement. However, a measurement error model for high-speed high-resolution heterodyne interferometers (HSHR-HIs) has not yet been proposed. We established a HSHR-HI measurement error model, analyzed the influence of beat frequency stability with a simplified optical structure, and then designed an offset-locked dual-frequency laser source with a digital control system to reduce the impact of beat frequency drift. Experiments were used to verify the correction of the measurement error model and the validity of the laser source. The results show that the new laser source has a maximum beat frequency range of 45 MHz, which shows the improvements in the measuring speed and resolution.

Topics & Concepts

Beat (acoustics)Astronomical interferometerOpticsHeterodyne (poetry)LaserPhysicsDoppler effectObservational errorOffset (computer science)Laser Doppler vibrometerInterferometryComputer scienceAcousticsDistributed feedback laserStatisticsProgramming languageAstronomyMathematicsAdvanced Measurement and Metrology TechniquesScientific Measurement and Uncertainty EvaluationAdvanced Fiber Laser Technologies
Design for a Highly Stable Laser Source Based on the Error Model of High-Speed High-Resolution Heterodyne Interferometers | Litcius