Time-Domain Low-Coherence Interferometry (TD-LCI) is a well-known optical method to perform absolute distance measurements. As an alternative to conventional TD-LCI, the Self-Mixing Super Luminescent Diode (SM-SLD) technique represents a unique approach for simplicity and compactness. The presence of optical feedback in the source cavity allows obtaining huge interference fringes, even with diffusive targets and without using high-sensitivity and low-noise detectors. In this work, we present the performances of a custom-made SM-SLD interferometer for absolute distance measurements compared with a reference incremental interferometer. Thanks to the simplified acquisition method and the resulting improved signal-to-noise ratio, the system exhibits excellent metrological performances.
Absolute distance measurements based on TD SM-SLD: performances characterization and calibration / Masetti, Ettore; Fedullo, Tommaso; Cattini, Stefano; Rovati, Luigi. - 12008:(2022), p. 36. (Intervento presentato al convegno Conference on Photonic Instrumentation Engineering IX Part of SPIE Photonics West OPTO Conference tenutosi a San Francisco, California, U.S.A. nel 25/01/2022) [10.1117/12.2607586].
Absolute distance measurements based on TD SM-SLD: performances characterization and calibration
Masetti, Ettore;Cattini, Stefano;Rovati, Luigi
2022
Abstract
Time-Domain Low-Coherence Interferometry (TD-LCI) is a well-known optical method to perform absolute distance measurements. As an alternative to conventional TD-LCI, the Self-Mixing Super Luminescent Diode (SM-SLD) technique represents a unique approach for simplicity and compactness. The presence of optical feedback in the source cavity allows obtaining huge interference fringes, even with diffusive targets and without using high-sensitivity and low-noise detectors. In this work, we present the performances of a custom-made SM-SLD interferometer for absolute distance measurements compared with a reference incremental interferometer. Thanks to the simplified acquisition method and the resulting improved signal-to-noise ratio, the system exhibits excellent metrological performances.
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