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J. Chem. Phys. 153, 164305 (2020)

Isotope enrichment in neon clusters grown in helium nanodroplets

Lukas Tiefenthaler,1 Siegfried Kollotzek,1 Michael Gatchell,1,2 Klavs Hansen,3 Paul Scheier,1,* and Olof Echt1,4,*

1 Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck, A-6020 Innsbruck, Austria

2 Department of Physics, Stockholm University, 106 91 Stockholm, Sweden

3 Center for Joint Quantum Studies and Department of Physics, Tianjin University, Tianjin 300072, China

4 Department of Physics, University of New Hampshire, Durham, New Hampshire 03824, USA

paul.scheier@uibk.ac.at and olof.echt@unh.edu

ABSTRACT

Neon cluster ions Nes+ grown in pre-ionized, mass-to-charge selected helium nanodroplets (HNDs) reveal a strong enrichment of the heavy isotope 22Ne that depends on cluster size s and the experimental conditions. For small sizes, the enrichment is much larger than previously reported for bare neon clusters grown in nozzle expansions and subsequently ionized. The enrichment is traced to the massive evaporation of neon atoms in a collision cell that is used to strip helium from the HNDs. We derive a relation between the enrichment of 22Ne in the cluster ion and its corresponding depletion factor F in the vapor phase. The value thus found for F is in excellent agreement with a theoretical expression that relates isotopic fractionation in two-phase equilibria of atomic gases to the Debye temperature. Furthermore, the difference in zero-point energies between the two isotopes computed from F agrees reasonably well with theoretical studies of neon cluster ions that include nuclear quantum effects in the harmonic approximation. Another fitting parameter provides an estimate for the size si of the precursor of the observed Nes+. The value is in satisfactory agreement with the size estimated by modeling the growth of Nes+ and with lower and upper limits deduced from other experimental data. On the other hand, neon clusters grown in neutral HNDs that are subsequently ionized by electron bombardment exhibit no statistically significant isotope enrichment at all. The finding suggests that the extent of ionization-induced dissociation of clusters embedded in HNDs is considerably smaller than that for bare clusters.

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