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Showing 1–3 of 3 results
Advanced filters: Author: Astrid Bergeat Clear advanced filters

  • Collision-induced spin–orbit transitions involve multiple interaction potentials and are by nature non-adiabatic, complicating both their experimental and theoretical study. Crossed-beam experiments and non-Born–Oppenheimer quantum calculations for inelastic collisions of carbon atoms with helium atoms, down to energies corresponding to temperatures below 10 K, have now been performed. Quantum-dynamical resonances predicted by theory were experimentally detected.

    • Astrid Bergeat
    • Simon Chefdeville
    • François Lique
    Research
    Nature Chemistry
    Volume: 10, P: 519-522

  • Long-lived molecular collision complexes — or ‘resonances’ — are difficult to identify experimentally. Now crossed-beam experiments and quantum calculations are reported for rotationally inelastic CO−He collisions at energies corresponding to temperatures as low as 4 K. Quantum dynamical resonances that are predicted by theory were detected and fully characterized.

    • Astrid Bergeat
    • Jolijn Onvlee
    • Michel Costes
    Research
    Nature Chemistry
    Volume: 7, P: 349-353

  • Magnetic or electric fields have long been used to align or orient atomic or molecular species in a molecular beam. Now, experiments in a merged beam apparatus show that an external magnetic field can be used to favour one particular reaction path.

    • Astrid Bergeat
    • Christian Naulin
    News & Views
    Nature Chemistry
    Volume: 10, P: 1177-1179