Curve-crossing analysis for potential sputtering of insulators

L. Wirtz¹, G. Hayderer², C. Lemell¹, J. Burgdörfer¹, L. Hägg³, C.O. Reinold⁴, P. Varga², H.P. Winter², F. Aumayr²

¹Institut für Theoretische Physik, Technische Universität Wien, A-1040 Wien, Austria
²Institut für Allgemeine Physik, Technische Universität Wien, A-1040 Wien, Austria
³Department of Physics and Mathematics, Mid Sweden University, S-85170 Sundsvall, Sweden
⁴Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6373, U.S.A.

Surf. Sci. 451 (2000) 197-202

We develop a theoretical model for the recently observed threshold for potential sputtering of LiF by slow singly and doubly charged ions. The threshold coincides with the potential energy to create a cold hole in the valence band of LiF by resonant neutralization. We calculate the level shift of the incident ion and the deformation of the valence band under the influence of the projectile. Resonant neutralization becomes possible for ions with recombination energies larger than 10 eV in agreement with the experimental findings.

Corresponding author: F. Aumayr (aumayr).

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Curve-crossing analysis for potential sputtering of insulators

L. Wirtz1, G. Hayderer2, C. Lemell1, J. Burgdörfer1, L. Hägg3, C.O. Reinold4, P. Varga2, H.P. Winter2, F. Aumayr2

Surf. Sci. 451 (2000) 197-202

L. Wirtz¹, G. Hayderer², C. Lemell¹, J. Burgdörfer¹, L. Hägg³, C.O. Reinold⁴, P. Varga², H.P. Winter², F. Aumayr²