Title :
A short-wavelength selective reach-through avalanche photodiode
Author :
McIntyre, R.J. ; Webb, P.P. ; Dautet, H.
Author_Institution :
EG&G Optoelectron., Canada
Abstract :
A new reach-through avalanche photodiode, designed for use with sources of short-wavelength light such as scintillators, is described. The device has a double junction p+-p-n-p--n+ structure in which the central three layers, which comprise about 99% of the device thickness, are fully depleted. The p+ light-entry surface extends across the whole device and can be placed in contact with a scintillator. The multiplying p-n junction is buried and is located about 4 μm below the p+-layer so that only primary photo-electrons generated by short-wavelength (i.e., strongly absorbed) light are fully multiplied. The p--n+ junction, or array of junctions, is located at the back of the wafer and is surrounded by a guard-ring. Typical characteristics for a device 120 μm thick and having a 25 mm2 sensitive area, are a QE of 80% at 480 nm, a capacitance of 30 pF, operating voltage of <500 V, a speed of response of ~3 ns, a noise current of less than 1 pA/Hz1/2 at a gain of 100, and an effective k value of 0.030
Keywords :
amplification; avalanche photodiodes; capacitance; semiconductor device noise; silicon radiation detectors; 120 mum; 30 pF; 300 ns; 480 nm; 500 V; Si; capacitance; double junction; effective k value; gain; noise current; operating voltage; p-n junction; p+-layer; p--n+ junction; photo-electrons; quantum efficiency; reach-through avalanche photodiode; response speed; short-wavelength light; Avalanche photodiodes; Capacitance; Infrared detectors; Optical coupling; P-n junctions; Radiation detectors; Surface contamination; Voltage; X-ray detection; X-ray detectors;
Conference_Titel :
Nuclear Science Symposium and Medical Imaging Conference Record, 1995., 1995 IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-3180-X
DOI :
10.1109/NSSMIC.1995.504206
