4H-SiC-based photodetector of Carcinogenic UV radiation

Carcinogenic (bactericidal) radiation (200–300 nm with a peak at 254 nm) is present in natural (Sun) and artificial (lamps) source of UV radiation. Its intensity is very low as compared to other types of radiation, but it strongly affects the health of human beings. To prevent oncological diseases, it is important to monitor the carcinogenic radiation level; i.e., selective photodetectors are required. A UV photodetector based on $n$-4H-SiC Schottly barriers and the $p^+$–$n$ junction is proposed. The quantum efficiency spectrum of such detectors is very close to the spectrum of relative action of carcinogenic radiation on human beings. The quantum efficiency (at the spectral peak (254 nm) amounts to about 0.3 electrons/photon for virtually zero sensitivity in other spectral regions. Quantum efficiency in the wavelength range 247–254 nm is practically independent of temperature in the range from -100 to +100$^\circ$C.