Title :
Phenomenological Model for Predicting theEnergy Resolution of Neutron-Damaged Coaxial HPGe Detectors
Author :
Van Siclen, C. DeW ; Seabury, E.H. ; Wharton, C.J. ; Caffrey, A.J.
Author_Institution :
Idaho Nat. Lab., Idaho Falls, ID, USA
Abstract :
The peak energy resolution of germanium detectors deteriorates with increasing neutron fluence. This is due to hole capture at neutron-created defects in the crystal which prevents the full energy of the gamma-ray from being recorded by the detector. A phenomenological model of coaxial HPGe detectors is developed that relies on a single, dimensionless parameter that is related to the probability for immediate trapping of a mobile hole in the damaged crystal. As this trap parameter is independent of detector dimensions and type, the model is useful for predicting energy resolution as a function of neutron fluence.
Keywords :
crystal defects; germanium radiation detectors; hole traps; neutron detection; neutron effects; energy resolution prediction; germanium detectors; hole capture; mobile hole trapping; neutron created crystal defects; neutron damaged coaxial HPGe detectors; neutron fluence; peak energy resolution; phenomenological model; Crystals; Detectors; Electrodes; Electron traps; Energy resolution; Neutrons; Energy resolution; germanium detector; neutron damage;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2012.2209896
