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Experimental observation of quantum mechanical fluorine tunnelling

Author

Listed:
  • Carsten Müller

    (Freie Universität Berlin)

  • Frederik Bader

    (Freie Universität Berlin)

  • Frenio A. Redeker

    (Georgetown University)

  • Lawrence Conrad

    (Freie Universität Berlin)

  • Helmut Beckers

    (Freie Universität Berlin)

  • Beate Paulus

    (Freie Universität Berlin)

  • Sebastian Riedel

    (Freie Universität Berlin)

  • Jean Christophe Tremblay

    (CNRS-Université de Lorraine)

Abstract

Quantum mechanical tunnelling occurs when a molecule transforms between two states separated by a finite energy barrier that cannot be overcome thermally. To date, it has been observed for elements up to oxygen. Efforts to go one element further are hindered by the strong bonds formed by fluorine with other elements, which suppress tunnelling. In this work, laser ablation is used to create fluorine-only species and trap weakly-bound polyfluorides in a neon matrix at cryogenic temperatures. Spectroscopic investigations reveal a temperature-dependent doublet-splitting, providing experimental evidence for heavy-atom quantum mechanical tunnelling. Theoretical modelling attributes the signal to tunnelling of the central fluorine atom in a quasi-linear [F2 ⋯ F ⋯ F2]− complex through a rotational barrier caused by steric hindrance and electronic effects in the neon matrix. The present study offers new insights into chemical interactions in polyfluorides and, more generally, of quantum phenomena in confined environments.

Suggested Citation

  • Carsten Müller & Frederik Bader & Frenio A. Redeker & Lawrence Conrad & Helmut Beckers & Beate Paulus & Sebastian Riedel & Jean Christophe Tremblay, 2025. "Experimental observation of quantum mechanical fluorine tunnelling," Nature Communications, Nature, vol. 16(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59008-6
    DOI: 10.1038/s41467-025-59008-6
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