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Showing 1–4 of 4 results
Advanced filters: Author: T. Dzelzainis Clear advanced filters

  • By reflecting light from a relativistically moving mirror, its frequency can be changed, which could create X-rays from visible light. Kiefer et al. make such a mirror from relativistic electrons formed by an intense laser striking a nanofoil, and shift a laser pulse from the infrared to the extreme ultraviolet.

    • D. Kiefer
    • M. Yeung
    • B. Dromey
    ResearchOpen Access
    Nature Communications
    Volume: 4, P: 1-5

  • Applications of laser-plasma accelerated protons in fundamental, applied and medical sciences crucially depend on the creation of stable collimated beams with high repetition rates. Here the authors demonstrate the generation of multi-MeV protons at 5 Hz, with low (degree-level) proton beam divergence from a laser pulse focused onto a water sheet target, potentially mitigating the need for beam capturing techniques.

    • M. J. V. Streeter
    • G. D. Glenn
    • C. A. J. Palmer
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-9

  • Extreme ultraviolet and X-ray radiation can be generated when the high harmonics of incident laser light are reflected by a dense plasma, the so-called relativistically oscillating mirror mechanism. Theoretical studies have, however, predicted an alternative regime in which short-wavelength light is generated by dense electron nanobunches that form at the plasma–vacuum boundary. Signatures of this coherent synchrotron emission are now experimentally observed.

    • B. Dromey
    • S. Rykovanov
    • B. M. Hegelich
    Research
    Nature Physics
    Volume: 8, P: 804-808

  • Electron–positron pair plasma—a state of matter with a complete symmetry between negatively and positively charged particles—are found in many astrophysical object. Here, the authors use high-power laser to create an ion-free electron–positron plasma in the laboratory.

    • G. Sarri
    • K. Poder
    • M. Zepf
    ResearchOpen Access
    Nature Communications
    Volume: 6, P: 1-8