Surface Sensitivity in Cluster-Ion-Induced Sputtering

Christopher Szakal, Joseph Kozole, Michael F. Russo, Jr., Barbara J. Garrison, and Nicholas Winograd
Phys. Rev. Lett. 96, 216104 – Published 1 June 2006

Abstract

The ion beam-induced removal of thin water ice films condensed onto Ag and bombarded by energetic Au, Au2, Au3, and C60 projectiles is examined both experimentally and with molecular dynamics computer simulations. For water overlayers of thicknesses greater than 10 Å, the yields of sputtered Ag+ secondary ions decay exponentially with increasing ice thickness, revealing characteristic decay lengths of 24, 20, 18, and 7.0 Å, respectively. It is shown that these values manifest the characteristic depths of projectile energy loss, rather than escape depths of the sputtered Ag atoms through the water ice overlayer. Computer simulations show that the mechanism of ejection involves the sweeping away of overlayer water molecules, allowing for an unimpeded escape of ejected Ag atoms. The relevance of these data with respect to surface sensitivity in secondary ion mass spectrometry is discussed.

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  • Received 17 February 2006

DOI:https://doi.org/10.1103/PhysRevLett.96.216104

©2006 American Physical Society

Authors & Affiliations

Christopher Szakal, Joseph Kozole, Michael F. Russo, Jr., Barbara J. Garrison, and Nicholas Winograd*

  • Department of Chemistry, Penn State University, 104 Chemistry Building, University Park, Pennsylvania 16802, USA

  • *Electronic address: nxw@psu.edu

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Issue

Vol. 96, Iss. 21 — 2 June 2006

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