Title :
Photon-counting solid-state photomultiplier
Author :
Petroff, M.D. ; Stapelbroek, M.G.
Author_Institution :
Rockwell Int, Sci. Center, Anaheim, CA, USA
fDate :
2/1/1989 12:00:00 AM
Abstract :
The solid state photomultiplier is a silicon device capable of continuous detection of individual photons in the wavelength range from 0.4 to 28 μm. Operated with an applied bias near 7 V the device responds to the absorption of an incident photon with a submicrosecond-risetime current pulse with a narrow amplitude distribution well above the electronic readout noise levels. Optimal photon-counting performance occurs between 6 and 10 K and for count rates less than 1010 counts/s/cm2 of detector area. A 60% counting quantum efficiency has been demonstrated at 20 μm, and near 60% was observed in the visible light region. The underlying mechanism involves extremely fast internal charge amplification by impact ionization of impurity-band electrons and results in a pulse for each photoelectrically or thermally induced free carrier. The thermally induced dark pulse rate at 7 K is sufficiently low that background-limited detector performance is obtained at a background of less than 106 photons/cm2 s
Keywords :
elemental semiconductors; gamma-ray detection and measurement; photomultipliers; photon counting; semiconductor devices; silicon; 0.4 to 28 micron; 6 to 10 K; Si; absorption; electronic readout noise levels; impact ionization; impurity-band electrons; internal charge amplification; narrow amplitude distribution; photon-counting performance; quantum efficiency; semiconductor device; solid state photomultiplier; submicrosecond-risetime current pulse; thermally induced dark pulse rate; visible light region; Detectors; Electrons; Impact ionization; Impurities; Noise level; Oils; Photomultipliers; Pulse amplifiers; Solid state circuits; Tiles;
Journal_Title :
Nuclear Science, IEEE Transactions on
