Download This PaperPerformance of 4h-Sic Radiation Detector after High Flux Proton and Fe13+ Heavy Ion Beam Irradiation
13 Pages Posted: 2 Sep 2022
Abstract
A batch of Schottky diode 4H-SiC detectors was fabricated by using Ni and Au electrodes, which were irradiated by Fe 13+ heavy ion beam current with a flux of 1×10 13 n/cm 2 to 4.35×10 14 n/cm 2 in a stepwise increment, the forward and reverse I-V characteristics before and after irradiation as well as the energy resolution of α particles produced by 241 Am source were tested and compared. The test results show that the reverse leakage current of the 4H-SiC detector that we made under the radiation of Fe 13+ heavy ion beam increases gradually with the increase of the irradiation flux, Schottky Barrier Height decreases continuously and the ideal factor gradually increases. When the flux is 4×10 13 n/cm 2 , it has risen to 9 μA, but the detector still has an energy resolution of 2.63%. When the flux of Fe 13+ heavy ion beam is increased to 8×10 13 n/cm 2 , the very obvious degradation phenomenon appeares, the Charge Collection Efficiency(CCE) is reduced from 100% to 66.08%, the energy resolution is changed from 1.6% to 4.33%. When flux is increased to 1.4×10 14 n/cm 2 , and the detector’s performance has degraded seriously, in which the energy resolution is decreased from 1.76% to 9.54%, meanwhile the CCE is reduced from 100% to 64.84%, but it can still be used. As the beam flux reaches 2×10 14 n/cm 2 , the detector has been completely damaged. At the same time, the ability of the detector to resist mixed ion beam irradiation was tested. The 4H-SiC detector still has an energy resolution of 2.51% after receiving a dose of irradiation, concluding with 1×10 17 n/cm 2 protons and 2×10 13 n/cm 2 Fe 13+ heavy ion beams.
Keywords: 4H-SiC Radiation detector Fe13+ Heavy Ion Beam Energy resolution
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