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Towards phase-stabilized Fourier domain mode-locked frequency combs

Christin Grill, Torben Blömker, Mark Schmidt, Dominic Kastner, Tom Pfeiffer, Jan Philip Kolb, Wolfgang Draxinger, Sebastian Karpf, Christian Jirauschek, Robert Huber

2022Communications Physics18 citationsDOIOpen Access PDF

Abstract

Abstract Fourier domain mode-locked (FDML) lasers are some of the fastest wavelength-swept light sources, and used in many applications like optical coherence tomography (OCT), OCT endoscopy, Raman microscopy, light detection and ranging, and two-photon microscopy. For a deeper understanding of the underlying laser physics, it is crucial to investigate the light field evolution of the FDML laser and to clarify whether the FDML laser provides a frequency comb structure. In this case, the FDML would output a coherent sweep in frequency with a stable phase relation between output colours. To get access to the phase of the light field, a beat signal measurement with a stable, monochromatic laser is performed. Here we show experimental evidence of a well-defined phase evolution and a comb-like structure of the FDML laser. This is in agreement with numerical simulations. This insight will enable new applications in jitter-free spectral-scanning, coherent, synthetic THz-generation and as metrological time-frequency ruler.

Topics & Concepts

OpticsLaserOptical coherence tomographyLaser linewidthFrequency domainMode-lockingPhysicsMaterials scienceComputer scienceComputer visionAdvanced Fiber Laser TechnologiesOptical Coherence Tomography ApplicationsPhotonic and Optical Devices
Towards phase-stabilized Fourier domain mode-locked frequency combs | Litcius