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A comparative study of radiation damage on high resistivity silicon

Published online by Cambridge University Press:  15 May 1999

P. Mangiagalli ,
M. Levalois ,
P. Marie ,
P. G. Rancoita  and
M. Rattaggi
P. Mangiagalli
Affiliation:
LERMAT ISMRA (UPRESA 6004), 6 boulevard Maréchal Juin, 14050 Caen, France
M. Levalois*
Affiliation:
LERMAT ISMRA (UPRESA 6004), 6 boulevard Maréchal Juin, 14050 Caen, France
P. Marie
Affiliation:
LERMAT ISMRA (UPRESA 6004), 6 boulevard Maréchal Juin, 14050 Caen, France
P. G. Rancoita
Affiliation:
INFN, Sezione di Milano, via Celoria 16, 20100 Milano, Italia
M. Rattaggi
Affiliation:
INFN, Sezione di Milano, via Celoria 16, 20100 Milano, Italia
*
levalois@labolermat.ismra.fr
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Abstract

In future particle accelerators, silicon detectors will be exposed with large doses of different types of radiation. To understand the corresponding produced damage mechanisms, a systematic study of the influence of the irradiation on the silicon from which the detectors are made has to be carried out. Samples of low n-doped silicon $(n\leq 10^{12}~{\rm cm}^{-3})$ have been irradiated with swift krypton ions $(\langle E\rangle=5.2~{\rm GeV})$, neutrons from a nuclear reactor $(\langle E\rangle \sim 1~{\rm MeV})$ and energetic electrons $(\langle E\rangle=1.5~{\rm MeV})$. Resistivity and Hall effect measurements performed after irradiation show that the silicon is changed to a quasi-intrinsic state, characterized by a very high resistivity. The electrically active defects responsible for that evolution are Maynly acceptor centers, namely divacancy and/or vacancy-doping complexes. Besides, for the highest fluences, only the appearance of a donor center located at about 0.59 eV below the conduction band may explain the observed stabilization of the Fermi level at 0.61 eV. Finally, using a simulation method, the rates of generation of the different defects are estimated.

Keywords

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 6 , Issue 2 , May 1999 , pp. 121 - 130
Copyright
© EDP Sciences, 1999

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