Title :
Self-biased boron-10 coated high-purity epitaxial GaAs thermal neutron detectors
Author :
McGregor, D.S. ; Vernon, S.M. ; Gersch, H.K. ; Markham, S.M. ; Wojtczuk, S.J. ; Wehe, D.K.
Author_Institution :
Dept. of Nucl. Eng. & Radiol. Sci., Michigan Univ., Ann Arbor, MI, USA
fDate :
8/1/2000 12:00:00 AM
Abstract :
Semiconductor thermal neutron detection devices based on 10 B-coated high-purity GaAs films were investigated. The fundamental device consisted of high-purity ν-type epitaxial GaAs films grown onto n-type GaAs substrates. Two blocking contact adaptations were applied to the high-purity ν-type GaAs regions: 2000 Å thick p+GaAs blocking contacts and 200 Å thick Schottky blocking contacts. The ν-type GaAs active layers ranged between 1 micron and 5 microns in thickness. The device sensitive areas were 3 mm×3 mm, each of which was coated with a 1.5 mm diameter film of 98% enriched high-purity 10B. The built-in potential of the blocking contact interface was sufficient to operate the devices, and no external voltage bias was necessary to operate the detectors. Preliminary calculations on intrinsic detection efficiency indicate values between 1.6% and 2.6%
Keywords :
gallium arsenide; neutron detection; semiconductor counters; semiconductor epitaxial layers; 200 A; 2000 A; B; GaAs; Schottky blocking contacts; blocking contact; epitaxial GaAs thermal neutron detectors; high-purity 10B; high-purity GaAs films; intrinsic detection efficiency; n-type GaAs substrate; nu-type epitaxial GaAs films; thermal neutron detection; Absorption; Detectors; Event detection; Gallium arsenide; Gamma ray detection; Gamma rays; Neutrons; Semiconductor films; Stationary state; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
