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Generation of coherent broadband high photon flux continua in the XUV with a sub-two-cycle fiber laser

Robert Klas, Wilhelm Eschen, Alexander Kirsche, Jan Rothhardt, Jens Limpert

2020Optics Express64 citationsDOIOpen Access PDF

Abstract

High harmonic sources can provide ultrashort pulses of coherent radiation in the XUV and X-ray spectral region. In this paper we utilize a sub-two-cycle femtosecond fiber laser to efficiently generate a broadband continuum of high-order harmonics between 70 eV and 120 eV. The average power delivered by this source ranges from > 0.2 µW/eV at 80 eV to >0.03 µW/eV at 120 eV. At 92 eV (13.5 nm wavelength), we measured a coherent record-high average power of 0.1 µW/eV, which corresponds to 7 · 10 9 ph/s/eV, with a long-term stability of 0.8% rms deviation over a 20 min time period. The presented approach is average power scalable and promises up to 10 11 ph/s/eV in the near future. With additional carrier-envelop phase control even isolated attosecond pulses can be expected from such sources. The combination of high flux, high photon energy and ultrashort (sub-) fs duration will enable photon-hungry time-resolved and multidimensional studies.

Topics & Concepts

AttosecondExtreme ultravioletOpticsPhysicsFemtosecondLaserHarmonicsPhotonHigh harmonic generationSupercontinuumUltrashort pulsePhoton countingFiber laserWavelengthPhotonic-crystal fiberVoltageQuantum mechanicsLaser-Matter Interactions and ApplicationsAdvanced Fiber Laser TechnologiesLaser-Plasma Interactions and Diagnostics
Generation of coherent broadband high photon flux continua in the XUV with a sub-two-cycle fiber laser | Litcius