Temporal characterization of long quantum-path high harmonics
Abstract
We measure for the first time the duration of long-quantum path EUV high harmonics produced in xenon gas. The long-quantum path contribution to the high-harmonic signal was carefully controlled by employing a two-colour driving laser field and a high-harmonic spatial selection in the far field, over a range of 18-25\,eV in photon energy. To characterise the temporal profile of long quantum path high harmonics, we performed a second order volume autocorrelation (2-IVAC) via two EUV photon double ionization in argon. Our results show the production and characterisation of a train of EUV pulses from the long-path with pulse duration as short as 1.4\,fs. This measurement demonstrates that the long-quantum path emission can have enough flux for performing non-linear EUV experiments, and that the long trajectories enable a pulse duration short enough to support measurements with a temporal resolution below 2\,fs.
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