2013
DOI: 10.1038/nphoton.2013.156
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Compact high-repetition-rate source of coherent 100 eV radiation

Abstract: Coherently enhancing laser pulses in a passive cavity provides ideal conditions for high-order harmonic generation in a gas, with repetition rates around 100 MHz (refs 1,2,3). Recently, extreme-ultraviolet radiation with photon energies of up to 30 eV was obtained, which is sufficiently bright for direct frequency-comb spectroscopy at 20 eV (ref. 4). Here, we identify a route to scaling these radiation sources to higher photon energies. We demonstrate that the ionization-limited attainable intracavity peak int… Show more

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Cited by 176 publications
(137 citation statements)
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“…This results in a conversion efficiency of 6.7 3 10 27 , enabling more than 50 mW in a single harmonic (.10 13 photons s -1 ), which is an improvement of four orders of magnitude compared with the reported multi-MHz systems of a single-pass HHG 28,29 . The photon flux is not only higher than what is supplied by current Ti:Sapphire technology 30 but also higher than intra-cavity HHG in the same wavelength range 8,24,31 . Additionally, the demonstrated repetition rate has previously been only accessible with enhancement cavities 23 .…”
Section: Resultsmentioning
confidence: 76%
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“…This results in a conversion efficiency of 6.7 3 10 27 , enabling more than 50 mW in a single harmonic (.10 13 photons s -1 ), which is an improvement of four orders of magnitude compared with the reported multi-MHz systems of a single-pass HHG 28,29 . The photon flux is not only higher than what is supplied by current Ti:Sapphire technology 30 but also higher than intra-cavity HHG in the same wavelength range 8,24,31 . Additionally, the demonstrated repetition rate has previously been only accessible with enhancement cavities 23 .…”
Section: Resultsmentioning
confidence: 76%
“…The achieved photon flux is four orders of magnitude larger than that reported in studies on multi-MHz repetition rate HHG directly driven with a laser, i.e., without the additional enhancement cavity 28,29 . Moreover, the flux obtained in H23 is higher than what the state-of-the art enhancement cavities can deliver 8,24,31 and also exceeds the currently used kHz systems 30 .…”
Section: Resultsmentioning
confidence: 81%
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“…Recently, with an enhancement factor of 2000, 10 ps pulses were enhanced to 670 kW of intracavity average power. 31 So far, these systems are mainly used for the generation of short-wavelength radiation via intracavity high-harmonic generation [31][32][33][34] or inverse Compton scattering. 35 The SnD concept employs an enhancement cavity for coherent pulse stacking.…”
Section: Methodsmentioning
confidence: 99%