Title :
Comprehensive modeling of bulk-damage effects in silicon radiation detectors
Author :
Passeri, Daniele ; Ciampolini, Paolo ; Bilei, Gian Mario ; Moscatelli, Francesco
Author_Institution :
Dipt. di ingegneria Elettronica e dell´´Inf., Perugia Univ., Italy
fDate :
10/1/2001 12:00:00 AM
Abstract :
In this paper, the issue of numerical modeling of radiation-damaged silicon devices is discussed, with reference to radiation detectors employed in high-energy physics experiments. Since the actual physical picture is far too complex to be accounted for at a first-principle (i.e., defect kinetics) level and not yet fully understood, a hierarchical approach has been followed looking for a suitable approximation of macroscopic changes of the electrical behavior of silicon device induced by radiation damage. In particular, a three deep-level trapping mechanism is accounted for by means of Shockley-Read-Hall theory, whereas the shallow-level sensitivity on the radiation is considered by means of a donor-removal model
Keywords :
deep levels; radiation effects; semiconductor device models; silicon radiation detectors; Shockley-Read-Hall theory; Si; Si detectors; bulk-damage; defect kinetics; donor-removal model; high-energy physics experiment; radiation damage; shallow-level sensitivity; three deep-level trapping; Atomic layer deposition; Computational modeling; Ionizing radiation; Lattices; Physics; Radiation detectors; Semiconductor device noise; Silicon devices; Silicon radiation detectors; Working environment noise;
Journal_Title :
Nuclear Science, IEEE Transactions on
