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An intense source for cold cluster ions of a specific composition

Lukas Tiefenthaler, João Ameixa, Paul Martini, Simon Albertini, Lorenz Ballauf, M. Zankl, Marcelo Goulart, Felix Laimer, K. von Haeften, Fábio Zappa, P. Scheier

2020Review of Scientific Instruments51 citationsDOIOpen Access PDF

Abstract

O, and serine are produced inside helium nanodroplets using a combination of ionization, mass filtering, collisions with atomic or molecular vapor, and electrostatic extraction, in a specific and novel sequence. The helium droplets are produced in an expansion of cold helium gas through a nozzle into vacuum. The droplets are ionized by electron bombardment and subjected to a mass filter. The ionic and mass-selected helium droplets are then guided through a vacuum chamber filled with atomic or molecular vapor where they collide and "pick up" the vapor. The dopants then agglomerate inside the helium droplets around charge centers to singly charged clusters. Evaporation of the helium droplets is induced by collisions in a helium-filled radio frequency (RF)-hexapole, which liberates the cluster ions from the host droplets. The clusters are analyzed with a time-of-flight mass spectrometer. It is demonstrated that using this sequence, the size distribution of the dopant cluster ions is distinctly narrower compared to ionization after pickup. Likewise, the ion cluster beam is more intense. The mass spectra show, as well, that ion clusters of the dopants can be produced with only few helium atoms attached, which will be important for messenger spectroscopy. All these findings are important for the scientific research of clusters and nanoscale materials in general.

Topics & Concepts

HeliumMaterials scienceAtomic physicsIonizationIonMass spectrumMass spectrometryElectron ionizationCluster (spacecraft)DopantEvaporationIon sourceChemistryDopingPhysicsOptoelectronicsProgramming languageChromatographyOrganic chemistryComputer scienceThermodynamicsQuantum, superfluid, helium dynamicsAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical Studies