Title :
Photoelectron backscattering from silicon anodes of hybrid photodetector tubes
Author :
d´Ambrosio, C. ; Leutz, H.
Author_Institution :
CERN, Geneva, Switzerland
fDate :
8/1/2000 12:00:00 AM
Abstract :
The impact of photoelectron backscattering on spectral distributions measured with hybrid photodetector tubes has been calculated. The calculations are based on the backscattering coefficient μ, the average number of photoelectrons N¯phel emitted from the photocathode, and on the distribution of the fractional photoelectron energy q absorbed in silicon during the backscattering process. We obtained the following results: the average number of absorbed (measured) photoelectrons N¯meas in the silicon anode amounts to ~88% of the incident N¯phel. Photoelectron- and gamma-absorption peaks are broadened by a factor 1.043 due to backscattering. As an example, for photomultiplier tubes, this broadening can amount to an average factor of 1.18 due to statistic and gain fluctuations on the dynode chain
Keywords :
anodes; electron backscattering; elemental semiconductors; gamma-ray absorption; gamma-ray detection; photodetectors; photomultipliers; silicon; solid scintillation detectors; Si; dynode chain; fractional photoelectron energy; gamma-absorption peaks; hybrid photodetector tubes anodes; photoelectron backscattering; photomultiplier tubes; solid scintillation detectors; spectral distributions; Anodes; Backscatter; Cathodes; Diodes; Electrons; Energy resolution; Photodetectors; Pixel; Silicon; Statistics;
Journal_Title :
Nuclear Science, IEEE Transactions on
