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Efficient nonlinear compression of a thin-disk oscillator to 8.5  fs at 55  W average power

Gaia Barbiero, Haochuan Wang, Martin Graßl, Sebastian Gröbmeyer, Džiugas Kimbaras, Marcel Neuhaus, Vladimir Pervak, Thomas Nubbemeyer, Hanieh Fattahi, Matthias F. Kling

2021Optics Letters39 citationsDOIOpen Access PDF

Abstract

We demonstrate an efficient hybrid-scheme for nonlinear pulse compression of high-power thin-disk oscillator pulses to the sub-10 fs regime. The output of a home-built, 16 MHz, 84 W, 220 fs Yb:YAG thin-disk oscillator at 1030 nm is first compressed to 17 fs in two nonlinear multipass cells. In a third stage, based on multiple thin sapphire plates, further compression to 8.5 fs with 55 W output power and an overall optical efficiency of 65% is achieved. Ultrabroadband mid-infrared pulses covering the spectral range 2.4-8µm were generated from these compressed pulses by intra-pulse difference frequency generation.

Topics & Concepts

Pulse compressionOpticsSelf-phase modulationSapphireNonlinear systemPhysicsCompression (physics)Materials scienceNonlinear opticsPower (physics)Range (aeronautics)Pulse (music)Pulse shapingSum-frequency generationLaserUltrashort pulseSpectral densityMode-lockingPulse durationOptical parametric oscillatorPhotorefractive and Nonlinear OpticsAdvanced Fiber Laser TechnologiesSolid State Laser Technologies
Efficient nonlinear compression of a thin-disk oscillator to 8.5  fs at 55  W average power | Litcius