Title :
“Effective NIEL” in silicon: Calculation using molecular dynamic simulation results
Author :
Inguimbert, C. ; Arnolda, P. ; Nuns, T. ; Rolland, G.
Author_Institution :
ONERA-DESP, Toulouse, France
Abstract :
Molecular dynamic studies demonstrate that, under suitable conditions, low energy transfer below the atomic displacement threshold (Td) can increase damage production. In the case of silicon material, both these non linear subthreshold phenomena and recombination effects have been incorporated in a new model. In comparison with Kinchin Pease approach, our improved model, is able to estimate more accurately the number of displacements generated by a primary knock on atom. It is then used to calculate “effective NIEL”.
Keywords :
elemental semiconductors; molecular dynamics method; radiation effects; silicon; Kinchin Pease approach; NIEL; Si; atomic displacement threshold; displacement estimation; energy transfer; molecular dynamic simulation result; nonionizing energy loss; nonlinear subthreshold phenomena; Degradation; Ions; Kinetic energy; Protons; Q factor; Radiation effects; Silicon; Atomic displacement; Kinchin Pease; NIEL; cross section; energy partition function; threshold energy;
Conference_Titel :
Radiation and Its Effects on Components and Systems (RADECS), 2009 European Conference on
Conference_Location :
Bruges
Print_ISBN :
978-1-4577-0492-5
Electronic_ISBN :
0379-6566
DOI :
10.1109/RADECS.2009.5994592
