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Paper detail

Attosecond synchronization of extreme ultraviolet high harmonics from crystals

The interaction of strong near-infrared (NIR) laser pulses with wide-bandgap dielectrics produces high harmonics in the extreme ultraviolet (XUV) wavelength range. These observations have opened up the possibility of attosecond metrology in solids, which would benefit from a precise measurement of the emission times of individual harmonics with respect to the NIR laser field. Here we show that, when high-harmonics are detected from the input surface of a magnesium oxide crystal, a bichromatic probing of the XUV emission shows a clear synchronization largely consistent with a semiclassical model of electron-hole recollisions in bulk solids. On the other hand, the bichromatic spectrogram of harmonics originating from the exit surface of the 200 $μ$m-thick crystal is strongly modified, indicating the influence of laser field distortions during propagation. Our tracking of sub-cycle electron and hole re-collisions at XUV energies is relevant to the development of solid-state sources of attosecond pulses.

preprint2020arXivOpen access
Giulio VampaJian LuYong Sing YouDenitsa R. BaykushevaMengxi WuHanzhe LiuKenneth J. SchaferMette B. GaardeDavid A. ReisShambhu Ghimire
physics.optics
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Giulio VampaJian LuYong Sing YouDenitsa R. BaykushevaMengxi WuHanzhe LiuKenneth J. SchaferMette B. GaardeDavid A. ReisShambhu Ghimire

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