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Atomically resolved phase transition of fullerene cations solvated in helium droplets

Author

Listed:
  • M. Kuhn

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • M. Renzler

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • J. Postler

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • S. Ralser

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • S. Spieler

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • M. Simpson

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • H Linnartz

    (Leiden Observatory, University of Leiden)

  • A. G. G. M. Tielens

    (Leiden Observatory, University of Leiden)

  • J. Cami

    (The University of Western Ontario
    SETI Institute)

  • A. Mauracher

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • Y. Wang

    (Módulo 13, Universidad Autónoma de Madrid
    Instituto Madrileño de Estudios Avanzados en Nanociencia (IMDEA-Nanociencia), Cantoblanco
    Institute for Advanced Research in Chemical Sciences (IAdChem), Universidad Autónoma de Madrid)

  • M. Alcamí

    (Módulo 13, Universidad Autónoma de Madrid
    Instituto Madrileño de Estudios Avanzados en Nanociencia (IMDEA-Nanociencia), Cantoblanco
    Institute for Advanced Research in Chemical Sciences (IAdChem), Universidad Autónoma de Madrid)

  • F. Martín

    (Módulo 13, Universidad Autónoma de Madrid
    Instituto Madrileño de Estudios Avanzados en Nanociencia (IMDEA-Nanociencia), Cantoblanco
    Condensed Matter Physics Center (IFIMAC), Universidad Autónoma de Madrid)

  • M. K. Beyer

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • R. Wester

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

  • A. Lindinger

    (Institut für Experimentalphysik, Freie Universität Berlin)

  • P. Scheier

    (Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck)

Abstract

Helium has a unique phase diagram and below 25 bar it does not form a solid even at the lowest temperatures. Electrostriction leads to the formation of a solid layer of helium around charged impurities at much lower pressures in liquid and superfluid helium. These so-called ‘Atkins snowballs’ have been investigated for several simple ions. Here we form HenC60+ complexes with n exceeding 100 via electron ionization of helium nanodroplets doped with C60. Photofragmentation of these complexes is measured by merging a tunable narrow-bandwidth laser beam with the ions. A switch from red- to blueshift of the absorption frequency of HenC60+ on addition of He atoms at n=32 is associated with a phase transition in the attached helium layer from solid to partly liquid (melting of the Atkins snowball). Elaborate molecular dynamics simulations using a realistic force field and including quantum effects support this interpretation.

Suggested Citation

  • M. Kuhn & M. Renzler & J. Postler & S. Ralser & S. Spieler & M. Simpson & H Linnartz & A. G. G. M. Tielens & J. Cami & A. Mauracher & Y. Wang & M. Alcamí & F. Martín & M. K. Beyer & R. Wester & A. Lin, 2016. "Atomically resolved phase transition of fullerene cations solvated in helium droplets," Nature Communications, Nature, vol. 7(1), pages 1-5, December.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13550
    DOI: 10.1038/ncomms13550
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