Ion and electron track-structure and its effects in silicon: model and calculations

Ion tracks in solids Monte Carlo simulations Spatial and temporal deposited energy distributions Electron-hole separation and charge distributions a b s t r a c t Spatial and temporal characteristics of energy deposition events and electron-hole distributions as a result of the passage of energetic

High energy interaction of heavy ions with silicon integrated circuits contribute to transient events or single event effects (SEE) when ionizing the device along the particle path. Knowledge of the electron-hole pair density in the ion track is necessary for studying collected charge and estimating

## Abstract __Ab initio__ SCF‐LCAO‐MO calculations have been performed for TCNQ and its positive and negative ions in various electronic states. A basis set consisting of 412 primitive Gaussian type orbitals contracted to 180 was used in the investigation. The electron density distribution in TCNQ

Electronic structure calculations of FO and its anion have been performed at rhe QClSD(T) level of ab initio theory using 6-3 l+ G\* and extended Gaussian basis sets. The adiabatic electron affinity of FO is calculated to be 2.08 i 0.2 eV. The 'I+ anion, which is bound by 3 eV. dissociates to Ft O-r