Title :
4H-SiC Visible-Blind Single-Photon Avalanche Diode for Ultraviolet Detection at 280 and 350 nm
Author :
Hu, Jun ; Xin, Xiaobin ; Li, Xueqing ; Zhao, Jian H. ; VanMil, Brenda L. ; Lew, Kok-Keong ; Myers-Ward, Rachael L. ; Eddy, Charles R., Jr. ; Gaskill, D. Kurt
Author_Institution :
Dept. of Electr. & Comput. Eng., Rutgers Univ., Piscataway, NJ
Abstract :
This paper reports on a 4H-SiC single-photon avalanche diode (SPAD) operating at UV wavelengths of 280 and 350 nm. The SPAD shows low dark currents of 20 and 57 fA at 80 V and 90% breakdown voltage, respectively. The quantum efficiency (QE) reaches its peak of 43% at 270 nm and is < 0.007% at 400 nm, indicating a high UV-to-visible rejection ratio of > 6100. The 4H-SiC SPAD shows a fast self-quenching and a high photon count rate of 1.44 MHz in the passive-quenching mode. At the wavelength of 280 nm, a single-photon detection efficiency (SPDE) of 2.83 % with a low dark count rate of 22 kHz is achieved at the reverse bias of 116.8 V. The SPDE at 350 nm is lower, which is 0.195%, owing to the correspondingly smaller QE. Optimization measurements were conducted on SPDE as a function of voltage bias and signal output threshold.
Keywords :
avalanche photodiodes; dark conductivity; photodetectors; photon counting; radiation quenching; silicon compounds; ultraviolet detectors; wide band gap semiconductors; 4H-SiC visible-blind single-photon avalanche diode; SPAD; SiC; UV-visible rejection ratio; breakdown voltage; dark current; passive-quenching mode; quantum efficiency; self quenching; ultraviolet detection; voltage 116.8 V; voltage 80 V; wavelength 280 nm to 350 nm; Astronomy; Chemical and biological sensors; Dark current; Extraterrestrial measurements; Fires; Laboratories; Semiconductor diodes; Silicon carbide; Threshold voltage; Wavelength measurement; 4H-silicon carbide; Counting efficiency (CE); dark count rate (DCR); passive quenching; single-photon avalanche diode (SPAD); single-photon detection efficiency (SPDE); visible blind;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2008.926669
