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Absolute angular measurement with optical frequency comb using a dispersive interferometry

Liang Xu, Jiarui Lin, Tengfei Wu, Linghui Yang, Yu Wang, Yang Liu, Jigui Zhu

2020Optics Express16 citationsDOIOpen Access PDF

Abstract

We have demonstrated a simple method to measure high-precision absolute angular displacement using an optical frequency comb (OFC). The dispersive interferometry with parallel configuration can take advantage of its large non-ambiguity range and achieve absolute angular measurement in a large range. The influence factors of the angle accuracy, including the accuracy of optical path difference, the determination of absolute zero position and the correction of sine arm have been analyzed in detail. The angle comparison is performed with the autocollimator and multi-tooth indexing table. The angle accuracy can reach ±2 arcsec (k=2) in the range of 5°, which represents a good agreement with the Monte Carlo simulation. The proposed approach has potential to be extended to multi-degree-of-freedom measurement with a simple structure in future.

Topics & Concepts

OpticsInterferometryPhysicsAngular displacementSpatial frequencyMonte Carlo methodOptical path lengthOptical pathPosition (finance)MetrologyRange (aeronautics)Materials scienceMathematicsAcousticsComposite materialEconomicsStatisticsFinanceAdvanced Fiber Laser TechnologiesAdvanced Measurement and Metrology TechniquesAdvanced Fiber Optic Sensors