Accession Number : ADA296010
Title : Theoretical and Numerical Prediction of Stopping Properties of Counterpart Thin Films and Solids.
Descriptive Note : Final rept.,
Corporate Author : FLORIDA UNIV GAINESVILLE
Personal Author(s) : Sabin, John R. ; Trickey, Samuel B.
PDF Url : ADA296010
Report Date : 30 MAY 1995
Pagination or Media Count : 9
Abstract : Our previous work emphasized energy deposition in ultra-thin films in the projectile energy regime near and above the stopping maximum. Not only are most stopping measurements done in that regime, but the theory is simplified under this assumption, since Bethe stopping is dominant. Thus, we have developed, demonstrated the effectiveness, and applied an approximate model which works well in this energy domain. We have predicted a number of ultra-thin film effects which await experimental verification and technological exploitation. (AN)
Descriptors : *IONS, *THIN FILMS, *STOPPING, COMPUTER PROGRAMS, MATHEMATICAL MODELS, COMPUTERIZED SIMULATION, EQUATIONS OF MOTION, QUANTUM THEORY, CRYSTAL LATTICES, THEORY, ENERGY, NUMERICAL ANALYSIS, PROTONS, ION IMPLANTATION, HYDROGEN, DEPOSITION, ELECTRON ENERGY, PENETRATION, MATHEMATICAL PREDICTION, APPROXIMATION(MATHEMATICS), SILICON, MICROELECTRONICS, MOLECULAR STRUCTURE, CHARGE DENSITY, PROJECTILE TRAJECTORIES.
Subject Categories : Atomic and Molecular Physics and Spectroscopy
Solid State Physics
Distribution Statement : APPROVED FOR PUBLIC RELEASE