Particle detectors were made using semiconductor epitaxial 4H-SiC as the detection medium. The investigated detectors are formed by Schottky contact (Au) on the epitaxial layer and an ohmic contact on the back side of 4H-SiC substrates with different micropipe densities from CREE. For radiation hardness studies, the detectors have been irradiated with protons (24GeV/c) at a fluence of about10exp14 cm-2 and with electrons (8.2 MeV) and gamma-rays (60 Co source) at doses ranging from 0 to 40 Mrad. We present experimental data on the charge collection properties by using 5.48, 4.14 and 2.00 MeV alpha particles impinging on the Schottky contact. Hundred percent charge collection efficiency (CCE) is demonstrated for reverse voltages higher than the one needed to have a depletion region equal to the alpha particle projected range, even after the irradiation at the highest dose. By comparing measured CCE values with the outcomes of drift-diffusion simulations, values are inferred for the hole lifetime within the neutral region of the charge carrier generation layer. Lifetime was found to decrease with increasing radiation levels, ranging from 300 ns in non-irradiated detectors to in the most irradiated ones. The diffusion contribution of the minority charge carriers to CCE is pointed out.
Radiation tolerance of epitaxial silicon carbide detectors for electrons, protons and gamma rays
2003
Abstract
Particle detectors were made using semiconductor epitaxial 4H-SiC as the detection medium. The investigated detectors are formed by Schottky contact (Au) on the epitaxial layer and an ohmic contact on the back side of 4H-SiC substrates with different micropipe densities from CREE. For radiation hardness studies, the detectors have been irradiated with protons (24GeV/c) at a fluence of about10exp14 cm-2 and with electrons (8.2 MeV) and gamma-rays (60 Co source) at doses ranging from 0 to 40 Mrad. We present experimental data on the charge collection properties by using 5.48, 4.14 and 2.00 MeV alpha particles impinging on the Schottky contact. Hundred percent charge collection efficiency (CCE) is demonstrated for reverse voltages higher than the one needed to have a depletion region equal to the alpha particle projected range, even after the irradiation at the highest dose. By comparing measured CCE values with the outcomes of drift-diffusion simulations, values are inferred for the hole lifetime within the neutral region of the charge carrier generation layer. Lifetime was found to decrease with increasing radiation levels, ranging from 300 ns in non-irradiated detectors to in the most irradiated ones. The diffusion contribution of the minority charge carriers to CCE is pointed out.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
