Generation of above-terawatt 1.5-cycle visible pulses at 1 kHz by post-compression in a hollow fiber
Tamas Nagy, Martin Kretschmar, Marc J. J. Vrakking, Arnaud Rouzée
Abstract
We report on the generation of 6.1 mJ, 3.8 fs pulses by the compression of a kilohertz Ti:sapphire laser in a large-aperture long hollow fiber. In order to find optimal conditions for spectral broadening at high pulse energies, we explore different parameter ranges where ionization or the Kerr effect dominates. After identifying the optimum parameter settings, large spectral broadening at high waveguide transmission is obtained. The intense 1.5-cycle pulses are used for high-harmonic generation in argon and neon.
Topics & Concepts
Materials scienceOpticsPulse compressionDoppler broadeningSelf-phase modulationLaserPulse (music)Pulse shapingBandwidth-limited pulseFiber laserArgonOptical fiberRegenerative amplificationTransmission (telecommunications)OptoelectronicsIonizationNonlinear opticsKerr effectSpectral lineUltrashort pulseFemtosecond pulse shapingWaveguideCompression (physics)Pulse durationAmplified spontaneous emissionFiberAttenuation coefficientRefractive indexOptical amplifierOptical pumpingElectromagnetic pulseLaser-Matter Interactions and ApplicationsLaser-Plasma Interactions and DiagnosticsPhotonic Crystal and Fiber Optics