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Frequency-comb-calibrated swept-wavelength interferometry

Krishna Twayana, Zhichao Ye, Óskar B. Helgason, Kovendhan Vijayan, Magnus Karlsson

2021Optics Express35 citationsDOIOpen Access PDF

Abstract

Lasers are often used to characterize samples in a non-destructive manner and retrieve sensing information transduced in changes in amplitude and phase. In swept wavelength interferometry, a wavelength-tunable laser is used to measure the complex response (i.e. in amplitude and phase) of an optical sample. This technique leverages continuous advances in rapidly tunable lasers and is widely used for sensing, bioimaging and testing of photonic integrated components. However, the tunable laser requires an additional calibration step because, in practice, it does not tune at a constant rate. In this work, we use a self-referenced frequency comb as an optical ruler to calibrate the laser used in swept-wavelength interferometry and optical frequency domain reflectometry. This allows for realizing high-resolution complex spectroscopy over a bandwidth exceeding 10 THz. We apply the technique to the characterization of low-loss integrated photonic devices and demonstrate that the phase information can disentangle intrinsic from coupling losses in the characterization of high-Q microresonators. We also demonstrate the technique in reflection mode, where it can resolve attenuation and dispersion characteristics in integrated long spiral waveguides.

Topics & Concepts

OpticsInterferometryLaserMaterials scienceWavelengthReflectometryFrequency combPhotonicsOptoelectronicsTime domainPhysicsComputer scienceComputer visionAdvanced Fiber Laser TechnologiesPhotonic and Optical DevicesAdvanced Fiber Optic Sensors
Frequency-comb-calibrated swept-wavelength interferometry | Litcius