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Literature DB >> 31702350

Highly Charged Droplets of Superfluid Helium.

Felix Laimer¹, Lorenz Kranabetter¹, Lukas Tiefenthaler¹, Simon Albertini¹, Fabio Zappa^1,2, Andrew M Ellis³, Michael Gatchell^1,4, Paul Scheier¹.

Abstract

We report on the production and study of stable, highly charged droplets of superfluid helium. Using a novel experimental setup we produce neutral beams of liquid helium nanodroplets containing millions of atoms or more that can be ionized by electron impact, mass-per-charge selected, and ionized a second time before being analyzed. Droplets containing up to 55 net positive charges are identified and the appearance sizes of multiply charge droplets are determined as a function of the charge state. We show that the droplets are stable on the millisecond timescale of the experiment and decay through the loss of small charged clusters, not through symmetric Coulomb explosions.

Year: 2019 PMID： 31702350 DOI： 10.1103/PhysRevLett.123.165301

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

1. Protonated and Cationic Helium Clusters.

Authors: Linnea Lundberg; Peter Bartl; Christian Leidlmair; Paul Scheier; Michael Gatchell
Journal: Molecules Date: 2020-02-27 Impact factor: 4.411

2. Helium structures around SF₅⁺ and SF₆⁺: novel intermolecular potential and mass spectrometry experiments.

Authors: Eva Zunzunegui-Bru; Elisabeth Gruber; Stefan Bergmeister; Miriam Meyer; Fabio Zappa; Massimiliano Bartolomei; Fernando Pirani; Pablo Villarreal; Tomás González-Lezana; Paul Scheier
Journal: Phys Chem Chem Phys Date: 2022-01-26 Impact factor: 3.676

Highly Charged Droplets of Superfluid Helium.

1. Protonated and Cationic Helium Clusters.

2. Helium structures around SF₅⁺ and SF₆⁺: novel intermolecular potential and mass spectrometry experiments.

3. Efficient Formation of Size-Selected Clusters upon Pickup of Dopants into Multiply Charged Helium Droplets.

4. Size and Velocity Distribution of Negatively Charged Helium Nanodroplets.

5. Dissociation of Valine Cluster Cations.

Highly Charged Droplets of Superfluid Helium.

1. Protonated and Cationic Helium Clusters.

2. Helium structures around SF5+ and SF6+: novel intermolecular potential and mass spectrometry experiments.

3. Efficient Formation of Size-Selected Clusters upon Pickup of Dopants into Multiply Charged Helium Droplets.

4. Size and Velocity Distribution of Negatively Charged Helium Nanodroplets.

5. Dissociation of Valine Cluster Cations.

2. Helium structures around SF₅⁺ and SF₆⁺: novel intermolecular potential and mass spectrometry experiments.