Title :
Study of breakdown effects in silicon multi-guard structures
Author :
Bacchetta, N. ; Da Rold, M. ; Dell´Orso, R. ; Fuochi, P.G. ; Lanza, Alessandro ; Messineo, A. ; Militaru, O. ; Paccagnella, Alessandro ; Verzellesi, G. ; Wheadon, Richard
Abstract :
Many applications of silicon p+-n junctions as detectors require high voltage operation. In particular the LHC experiments, because of the radiation damage level, need very high bias working voltage to fully collect the ionising generated charge multi-guard structures can be used in order to improve the breakdown voltage of microstrip detectors, limiting the occurrence of critical fields in the proximities of a reverse biased p+-n junction. In this work we present results for different designs of multi-guard structures, before and after irradiation with ionising and non-ionising radiation sources (p,n,γ), and for different doses. Various experimental techniques have been used, like DC and AC electrical characterizations, and light emission microscopy. Moreover, a simulation work is presented. Its purpose is to improve the design on the basis of the experimental results
Keywords :
gamma-ray effects; neutron effects; p-n junctions; proton effects; silicon radiation detectors; LHC; Si; Si multi-guard structures; bias working voltage; breakdown; breakdown voltage; gamma irradiation; light emission microscopy; microstrip detectors; neutron irradiation; p+-n junctions; proton irradiation; radiation damage; reverse biased p+-n junction; Breakdown voltage; Electric breakdown; Ionizing radiation; Large Hadron Collider; Microscopy; Microstrip; Pediatrics; Radiation detectors; Silicon; Testing;
Conference_Titel :
Nuclear Science Symposium, 1997. IEEE
Conference_Location :
Albuquerque, NM
Print_ISBN :
0-7803-4258-5
DOI :
10.1109/NSSMIC.1997.672633
