Stability of Charge Collection Efficiency and Time Resolution in 4H-SiC PIN Diodes Under X-ray Irradiation
Abstract
This study evaluates the radiation tolerance of a 4H-SiC PIN detector under X-ray irradiation up to 2MGy (Si) at 160keV. The detector features a fully epitaxial vertical PIN structure with mesa terminations and field plates. Comprehensive pre- and post-irradiation characterization includes I-V/C-V measurements, charge collection efficiency (CCE) and timing resolution tests using β-particles (90Sr). After 2MGy irradiation, the reverse leakage current remains at an ultralow level of 10-11 A/cm2 at -300V with negligible degradation. C-V characteristics are basically consistent, with full depletion at ~130V. CCE for β-particles decreases by less than 5\%. The detector maintains good timing resolution: 21ps before and 31ps after irradiation, with jitter increasing moderately. These results demonstrate stable performance under extreme X-ray exposure, highlighting the detector's potential for radiation-hard applications in high-energy physics, space missions, and nuclear reactor monitoring.
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