Title :
Theoretical determination of the temporal and spatial structure of α-particle induced electron-hole pair generation in silicon
Author :
Oldiges, Phil ; Dennard, Robert ; Heidel, Dave ; Klaasen, Bill ; Assaderaghi, Fariborz ; Ieong, Meikei
Author_Institution :
SRDC, IBM Corp., Hopewell Junction, NY, USA
fDate :
12/1/2000 12:00:00 AM
Abstract :
Physics-based modeling of the impact ionization process in silicon was performed to determine the time constants and radial distribution of electron-hole pairs after an α-particle strike. The radial distribution exhibited a Gaussian shape with a radius of approximately 50 nm. The impact ionization process took place over a period of less than approximately 500 fsec, implying time constants for use in semiconductor device simulations on the order of a few hundred fsec, a value much smaller than has been used in earlier device simulation work. Device simulations then show that the implication of using these shorter time constants is the creation of a higher concentration of electron-hole pairs at shorter times that cause stronger shunting effects for α-particle strikes between source and drain of MOS transistors
Keywords :
alpha-particle effects; electron-hole recombination; elemental semiconductors; impact ionisation; silicon; silicon radiation detectors; α-particle induced electron-hole pair generation; 500 fs; Gaussian shape; Si; impact ionization process; radial distribution; Charge carrier processes; Circuit simulation; Displays; Impact ionization; MOSFETs; Nuclear power generation; Predictive models; Semiconductor devices; Shape; Silicon;
Journal_Title :
Nuclear Science, IEEE Transactions on
