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    Título
    Robust Isolated Attosecond Pulse Generation with Self-Compressed Subcycle Drivers from Hollow Capillary Fibers.
    Autor(es)
    Fernández Galán, Marina
    Serrano, Javier
    Conejero Jarque, EnriqueAutoridad USAL
    Borrego Varillas, Rocío
    Lucchini, Matteo
    Reduzzi, Maurizio
    Nisoli, Mauro
    Brahms, Christian
    Travers, John C.
    Hernández-García, Carlos
    San Román Álvarez de Lara, JulioAutoridad USAL
    Palabras clave
    Nonlinear optics
    Ultrashort laser pulses
    Soliton self-compression
    Hollow capillary fibers
    High-order harmonic generation
    Isolated attosecond pulses
    Fecha de publicación
    2024-03
    Editor
    ACS Publications
    Citación
    Galán, M. F., Serrano, J., Jarque, E. C., Borrego-Varillas, R., Lucchini, M., Reduzzi, M., Nisoli, M., Brahms, C., Travers, J. C., Hernández-García, C., & San Roman, J. (2024). Robust Isolated Attosecond Pulse Generation with Self-Compressed Subcycle Drivers from Hollow Capillary Fibers. ACS Photonics. https://doi.org/10.1021/acsphotonics.3c01897
    Resumen
    [EN]High-order harmonic generation (HHG) arising from the nonperturbative interaction of intense light fields with matter constitutes a well-established tabletop source of coherent extreme-ultraviolet and soft X-ray radiation, which is typically emitted as attosecond pulse trains. However, ultrafast applications increasingly demand isolated attosecond pulses (IAPs), which offer great promise for advancing precision control of electron dynamics. Yet, the direct generation of IAPs typically requires the synthesis of near-single-cycle intense driving fields, which is technologically challenging. In this work, we theoretically demonstrate a novel scheme for the straightforward and compact generation of IAPs from multicycle infrared drivers using hollow capillary fibers (HCFs). Starting from a standard, intense multicycle infrared pulse, a light transient is generated by extreme soliton self-compression in a HCF with decreasing pressure and is subsequently used to drive HHG in a gas target. Owing to the subcycle confinement of the HHG process, high-contrast IAPs are continuously emitted almost independently of the carrier-envelope phase (CEP) of the optimally self-compressed drivers. This results in a CEP-robust scheme which is also stable under macroscopic propagation of the high harmonics in a gas target. Our results open the way to a new generation of integrated all-fiber IAP sources, overcoming the efficiency limitations of usual gating techniques for multicycle drivers.
    URI
    http://hdl.handle.net/10366/157804
    ISSN
    2330-4022
    Versión del editor
    https://doi.org/10.1021/acsphotonics.3c01897
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    2024 © UNIVERSIDAD DE SALAMANCA