The effects of low-temperature annealing in 8.2 MeV electron-irradiated 4H-SiC Schottky diodes were investigated. Deep-level transient spectroscopy and minority-carrier diffusion length (L-d) measurements were carried out on not-irradiated samples and on irradiated samples before and after thermal treatments up to T=450 degrees C. We found that several deep levels in the upper half band gap (S1 with enthalpy E-T=0.27 eV, S2 with E-T=0.35 eV, S4 with E-T=0.71 eV, and S5 with E-T=0.96 eV) anneal out or modify at temperature values lower or equal to T=450 degrees C, whereby their progressive annealing out is accompanied by a net increase of L-d, up to 50% of the value in the as-irradiated sample. We drew some conclusions regarding the microscopic nature of the defects related to the deep levels, according to their annealing behavior.(c) 2006 American Institute of Physics.
Castaldini, A., Cavallini, A., Rigutti, L., Pizzini, S., LE DONNE, A., Binetti, S. (2006). Diffusion length and junction spectroscopy analysis of low-temperature annealing of electron irradiation-induced deep levels in 4H-SiC. JOURNAL OF APPLIED PHYSICS, 99(3), 033701 [10.1063/1.2160708].
Diffusion length and junction spectroscopy analysis of low-temperature annealing of electron irradiation-induced deep levels in 4H-SiC
PIZZINI, SERGIO;LE DONNE, ALESSIA;BINETTI, SIMONA OLGA
2006
Abstract
The effects of low-temperature annealing in 8.2 MeV electron-irradiated 4H-SiC Schottky diodes were investigated. Deep-level transient spectroscopy and minority-carrier diffusion length (L-d) measurements were carried out on not-irradiated samples and on irradiated samples before and after thermal treatments up to T=450 degrees C. We found that several deep levels in the upper half band gap (S1 with enthalpy E-T=0.27 eV, S2 with E-T=0.35 eV, S4 with E-T=0.71 eV, and S5 with E-T=0.96 eV) anneal out or modify at temperature values lower or equal to T=450 degrees C, whereby their progressive annealing out is accompanied by a net increase of L-d, up to 50% of the value in the as-irradiated sample. We drew some conclusions regarding the microscopic nature of the defects related to the deep levels, according to their annealing behavior.(c) 2006 American Institute of Physics.
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