Cascade and quasi thermal processes in excited atom sputtering
- 1 January 1978
- journal article
- research article
- Published by Taylor & Francis in Radiation Effects
- Vol. 35 (3) , 175-187
- https://doi.org/10.1080/00337577808240838
Abstract
Current models of sputtered excited atom emission are compared and it is concluded that a direct atom-atom collision, model affords a more realistic description than plasma or quasi plasma processes. However, although a formalism is derived for excited atom yields, quantification is not attempted because of present absence of knowledge of (1) collision induced excitation functions, (2) bound-free state excitation and dissociation promoted excitation processes during atomic ejection, and (3) the nature and magnitude of competing de-excitation processes. The influence of quasi thermal processes in producing surface atomic emission via sublimation during space-time extension of the initial cascade is also examined briefly. A formalism is developed to describe how this process may contribute to excited atom emission.Keywords
This publication has 33 references indexed in Scilit:
- Oscillatory Cross Sections in Low-Energy Ion Scattering from SurfacesPhysical Review Letters, 1975
- Nonadiabatic Effects in Slow Atomic Collisions. I.+ HePhysical Review A, 1971
- Cross sections for Ar L-shell and Ne K-shell x-ray emission in heavy ion-atom collisionsPhysica, 1970
- Processus de formation d'ions à partir d'atomes éjectés dans des états électroniques surexcités lors du bombardement ionique des métaux de transitionJournal de Physique, 1970
- Excitation of Cu atoms by Ar ions and subsequent radiationless deexcitation of scattered particles near a Cu surfacePhysica, 1969
- Theory of Sputtering. I. Sputtering Yield of Amorphous and Polycrystalline TargetsPhysical Review B, 1969
- Theory of Auger Ejection of Electrons from Metals by IonsPhysical Review B, 1954
- Collisions between atoms and molecules at ordinary temperaturesReports on Progress in Physics, 1949
- Zur Gittertheorie der IonenkristalleThe European Physical Journal A, 1932
- Kathodenzerstäubungsprobleme. (III. Mitteilung) Zur Theorie der KathodenzerstäubungAnnalen der Physik, 1926