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Picosecond pulse formation in the presence of atmospheric absorption

Matthew R. Majewski, Maria Pawliszewska, Stuart D. Jackson

2021Optics Express22 citationsDOIOpen Access PDF

Abstract

Mode-locked mid-infrared (MIR) fiber laser research has been dominated by the generation of pulses in the picosecond regime using saturable absorbers (SAs) and more recently frequency shifted feedback (FSF). Despite the significant emphasis placed on the development of materials to serve as the SAs for the MIR, published pulse durations have been substantially longer than what has been reported in the near-infrared (NIR). In this report we present experimental data supporting the view that the majority of demonstrations involving SAs and FSF have been limited by the presence of molecular gas absorption in the free-space sections of their cavities. We show that the pulse duration is directly linked to the width of an absorption-free region of the gaseous absorption profile and that the resulting optical spectrum is nearly always bounded by strong absorption features.

Topics & Concepts

PicosecondOpticsAbsorption (acoustics)Materials sciencePulse (music)Saturable absorptionLaserPulse durationInfraredAbsorption cross sectionAbsorption spectroscopyFiber laserOptoelectronicsPhysicsCross section (physics)Quantum mechanicsDetectorAdvanced Fiber Laser TechnologiesLaser-Matter Interactions and ApplicationsPhotonic Crystal and Fiber Optics
Picosecond pulse formation in the presence of atmospheric absorption | Litcius