Title :
Straggling and extreme cases in the energy deposition by ions in submicron silicon volumes
Author :
Barak, J. ; Akkerman, A.
Author_Institution :
Soreq Nucl. Res. Center, Yavne, Israel
Abstract :
The variations in the energy deposited by ions in thin silicon layers and submicron volumes are calculated using Monte Carlo and convolution methods. For the δ-electron spectra we use a detailed spectrum, considering solid state effects. For each ion, the energy it deposits in a sensitive (to single events) volume (SV) is found by subtracting the energy of the δ-electrons when escaping the SV from the energy the ion loses in the SV. The behavior of the resulting straggling functions is studied in detail as function of the SV shape and angle of incidence of the ion beam. They are used for estimating the probabilities of single events, in particular those due to rare high energy deposition events. The latter are compared with the probability for events due to nuclear reactions of the ion with the electronic material nuclei.
Keywords :
Monte Carlo methods; dielectric function; elemental semiconductors; energy loss of particles; ion beam effects; semiconductor thin films; silicon; δ-electron spectra; Monte Carlo method; SEU; Si; complex dielectric function theory; convolution method; energy deposition; ion beams; solid state effects; straggling function; submicron silicon volume; thin silicon layers; Computer aided software engineering; Convolution; Electron emission; Ion beams; Monte Carlo methods; Nuclear electronics; Shape; Silicon on insulator technology; Single event upset; Solid state circuits; Monte Carlo simulation; SEU cross section; straggling in energy deposition;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2005.860686
