Title :
Development of a novel planar-construction avalanche photodiode
Author :
Gramsch, Ernesto ; Avila, R.E. ; Ferrer, J.
Author_Institution :
Dept. of Phys., Santiago de Compostela Univ., Spain
fDate :
8/1/2001 12:00:00 AM
Abstract :
A deep-diffused large-area avalanche photodiode (APD) without bevel or grooves has been designed and built for use in low-light-level applications. The design does not incorporate a bevel edge or grooves to avoid early breakdown at the surface. The APD has been built using standard planar technology for silicon devices. Photodiodes with 2- and 3-mm diameter active area have been produced by deep boron diffusion, followed by shallow boron and phosphor diffusion. A gain of up to six is obtained at 1300 V before surface breakdown. The dark current is dependent on external voltage and is only 50-100 nA below breakdown. The energy resolution from a 57Co X-ray source (6.4 keV) was measured to be 1.47 keV, which corresponds to 174 rms electron noise. The energy resolution of a 137Cs source with an APD coupled to a 3×3×3 mm3 CsI(Tl) scintillator was 14.5%. We have also performed simulations of the gain and breakdown voltage that correlate well with the results
Keywords :
X-ray detection; amplification; avalanche photodiodes; boron; phosphorus; silicon radiation detectors; 1300 kV; 2 mm; 3 mm; 50 to 100 nA; 6.4 keV; 57Co; B diffusion; CsI(Tl) scintillator; P diffusion; Si:B,P; X-ray source; avalanche photodiode; breakdown voltage; dark current; energy resolution; gain; planar; Avalanche photodiodes; Boron; Breakdown voltage; Dark current; Electric breakdown; Energy measurement; Energy resolution; Noise measurement; Phosphors; Silicon devices;
Journal_Title :
Nuclear Science, IEEE Transactions on
