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Isolated attosecond pulse generation in a semi-infinite gas cell driven by time-gated phase matching.

Federico VismarraMarina Fernández GalánDaniele MocciLorenzo ColaizziVíctor Wilfried SegundoRoberto Boyero-GarcíaFco-Javier SerranoEnrique Conejero JarqueMarta PiniLorenzo MaiYingxuan WuHans Jakob WörnerElisa AppiCord L ArnoldMaurizio ReduzziMatteo LucchiniJulio San RománMauro NisoliCarlos Hernández-GarcíaRocío Borrego-Varillas
Published in: Light, science & applications (2024)
Isolated attosecond pulse (IAP) generation usually involves the use of short-medium gas cells operated at high pressures. In contrast, long-medium schemes at low pressures are commonly perceived as inherently unsuitable for IAP generation due to the nonlinear phenomena that challenge favourable phase-matching conditions. Here we provide clear experimental evidence on the generation of isolated extreme-ultraviolet attosecond pulses in a semi-infinite gas cell, demonstrating the use of extended-medium geometries for effective production of IAPs. To gain a deeper understanding we develop a simulation method for high-order harmonic generation (HHG), which combines nonlinear propagation with macroscopic HHG solving the 3D time-dependent Schrödinger equation at the single-atom level. Our simulations reveal that the nonlinear spatio-temporal reshaping of the driving field, observed in the experiment as a bright plasma channel, acts as a self-regulating mechanism boosting the phase-matching conditions for the generation of IAPs.
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