Title :
Self-calibrating position-sensitive silicon detectors
Author :
Walton, J.T. ; Sommer, H.A. ; Wozniak, G.J. ; Peaslee, G.F. ; Bowman, D.R. ; Kehoe, W.L. ; Moroni, A.
Author_Institution :
Lawrence Berkeley Lab., CA, USA
fDate :
10/1/1990 12:00:00 AM
Abstract :
Position-sensitive silicon detectors with discrete position output signal levels, which have been developed for heavy ion reaction studies at the Lawrence Berkeley Laboratory are discussed. The detectors, both 300- and 5000-μm thick, for use in ΔE-E telescopes, use a series of high and low conductivity strips on the detector p+ contact to produce a position signal with 15 discrete levels. Since the position of the signals from the strips is known, the detectors are self-calibrating against position nonlinearities. Some aspects of the fabrication of both the 300- and 5000-μm detectors are discussed, along with their operating characteristics. Illustrative experimental results of 139La-induced reactions on 40Ca targets are presented
Keywords :
position sensitive particle detectors; semiconductor counters; silicon; ΔE-E telescopes; 40Ca(139La,X); discrete position output signal levels; fabrication; heavy ion reaction studies; operating characteristics; position sensitive Si detectors; self-calibrating; Conductivity; Fabrication; Laboratories; Monitoring; Optical design; Position sensitive particle detectors; Sensor arrays; Silicon; Strips; Telescopes;
Journal_Title :
Nuclear Science, IEEE Transactions on
