Mass spectrometric studies on lead compound clusters

Mass spectrometric studies on lead compound clusters

A303 121 Surface Science 156 (1985) 121-125 North-Holland, Amsterdam EVAPORATION OF SMALL CLUSTERS O F N O B L E G A S E S BY IONIZATION J.J. S,h,...

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A303 121

Surface Science 156 (1985) 121-125 North-Holland, Amsterdam EVAPORATION

OF SMALL CLUSTERS

O F N O B L E G A S E S BY

IONIZATION J.J. S,h, E N Z , J . M . S O L E R a n d N . G A R C I A

Departamento de ~sica Fundamental, Universidad Autbnoma de Madrid, 28049 Madrid, Spain Received 10 July 1984 We have studied by molecular dynamics simulation the evolution of rare-gas clusters after their ionization. We find that, assuming the formation of a molecular dimer ion in the cluster, complete dissociation of small clusters occurs, in agreement with recent experimental results, and with mass spectra of Ar and Xe.

126

Surface Science 156 (1985) 126-133 North-Holland, Amsterdam

MASS SPECTROMETRIC CLUSTERS H.J. N O V I N S K Y , E. R E C K N A G E L

STUDIES

R. P F L A U M ,

ON LEAD COMPOUND

P. P F A U , K . S A T T L E R

and

Fakult~tt ff~r Physik, Universiti~t Konstanz, D-7750 Konstanz, Fed. Rep. of Germany Received 10 July 1984; accepted for publication 20 August 1984 Clusters from PbO and PbCI 2 have been generated by condensation of the vapours in cold He gas. Different lattice energies E~ of the corresponding solids are displayed in the cluster stabilities. For PbO, with relatively high E I, doubly charged clusters are stable down to the trimer. For PbCl z, with lower E I, a critical size for Coulomb explosion n 2 . = 10 is found. After ionization, oxide or halogen atoms split off. The dissociation rates depend on the original cluster temperature, on the energy of the ionizing electrons and on the cluster sizes. Spectra from lead oxide clusters show an irregularity at n = 13, either if singly or doubly charged.

134 PRODUCTION

Surface Science 156 (1985) 134-139 North-Holland, Amsterdam AND STUDY OF METAL CLUSTER

IONS

P. F A Y E T a n d L. W O S T E

Institut de Physique Expbrimentale, Ecole Polytechnique Fbdbrale de Lausanne, CH-1015 Lausanne, Switzerland Received 10 July 1984 Sputtered metal clusters are energy analyzed, mass filtered and injected into a RF quadrupole drift tube. This confinement allowed us to perform collision-induced dissociations, chemical reactions and photofragmentation experiments on clusters of a single size. The results give an insight into the dynamic properties of charged metal aggregates.