Litcius/Paper detail

Splashing of Large Helium Nanodroplets upon Surface Collisions

Paul Martini, Simon Albertini, Felix Laimer, Miriam Meyer, Michael Gatchell, Olof Echt, Fabio Zappa, Paul Scheier

2021Physical Review Letters28 citationsDOI

Abstract

In the present work we observe that helium nanodroplets colliding with surfaces can exhibit splashing in a way that is analogous to classical liquids. We use transmission electron microscopy and mass spectrometry to demonstrate that neutral and ionic dopants embedded in the droplets are efficiently backscattered in such events. High abundances of weakly bound He-tagged ions of both polarities indicate a gentle extraction mechanism of these ions from the droplets upon collision with a solid surface. This backscattering process is observed for dopant particles with masses up to 400 kilodaltons, indicating an unexpected mechanism that effectively lowers deposition rates of nanoparticles formed in helium droplets.

Topics & Concepts

DopantHeliumMaterials scienceIonAtomic physicsMass spectrometryTransmission electron microscopyChemical physicsDeposition (geology)NanoparticleMolecular physicsField ion microscopeWork (physics)Ionic bondingCollisionScanning electron microscopeSecondary ion mass spectrometrySurface (topology)Particle (ecology)ElectronVaporizationExtraction (chemistry)PlasmaDopingElectron ionizationAnalytical Chemistry (journal)SulfurCharged particleQuantum, superfluid, helium dynamicsHydrogen Storage and Materialsnanoparticles nucleation surface interactions