Title :
A simulation method for germanium pulse shapes
Author :
Aalseth, C.E. ; Miley, H.S.
Author_Institution :
Pacific Northwest Lab., Richland, WA, USA
Abstract :
Pulse shape analysis for germanium spectrometers is under consideration for many purposes such as microphonic noise rejection, event localization in segmented detector systems, correction of ballistic deficit and trapping, and the separation of gamma events from nuclear recoil and beta decay. A simulation system for germanium spectrometer pulses has been developed which models the irradiation of a detector, the collection of charge, and the response of a preamplifier. The product of this simulation is a collection of events. For each event we record the number, location, and energy of charge depositions in the crystal; the total deposited energy; and the shape of the pulse observed at any one of several test points in the preamplifier. This system has been assembled by linking computer codes for radiation transport, electric field calculation, charge transport, electronic response, and data storage and management
Keywords :
germanium radiation detectors; nuclear electronics; particle spectrometers; preamplifiers; pulse shaping circuits; Ge; ballistic deficit; ballistic trapping; charge depositions; charge transport; event localization; germanium pulse shapes; germanium spectrometers; microphonic noise rejection; nuclear recoil; preamplifier; pulse shape analysis; segmented detector systems; total deposited energy; Computational modeling; Event detection; Gamma ray detection; Gamma ray detectors; Germanium; Noise shaping; Preamplifiers; Pulse shaping methods; Shape; Spectroscopy;
Conference_Titel :
Nuclear Science Symposium, 1999. Conference Record. 1999 IEEE
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-5696-9
DOI :
10.1109/NSSMIC.1999.845781
