Semiconductor Detector Optimization for Trace Mercury Analysis in Environmental Samples

Autor:	M. E. McLain, G. W. Leddicotte, D. M. Walker
Rok vydání:	1972
Předmět:	Nuclear and High Energy Physics Silicon Physics::Instrumentation and Detectors business.industry Astrophysics::High Energy Astrophysical Phenomena Detector chemistry.chemical_element Germanium Semiconductor detector Planar Optics Nuclear Energy and Engineering chemistry Coincident High Energy Physics::Experiment Coincidence counting Electrical and Electronic Engineering Coaxial business
Zdroj:	IEEE Transactions on Nuclear Science. 19:184-190
ISSN:	0018-9499
DOI:	10.1109/tns.1972.4326507
Popis:	The counting of low energy gamma-rays from mercury in activated environmental and biological samples is often hindered by dominant activity of higher energy gamma-rays from elements such as sodium. An investigation of gamma-ray interaction theory for silicon and germanium at these energies shows that germanium is the preferred material, and that a detector thickness of about 5 mm in the direction of the incident gamma-ray is optimum for mercury counting. Measurements and Figure-of-Merit calculations for true coaxial, closed-end coaxial, and thin high resolution planar Ge(Li) detectors resulted in FOM values for this application of 2.5 to 4.6 for the large volume coaxial detectors, and 8.0 to 17.3 for the thin planar detectors. Coincidence counting of the gamma- and x-rays can yield large FOM values and separation of the gamma- and x-rays in the recorded spectrum. Certain phenomena related to coincident emission, to background efficiency, and to energy resolution are not included in the FOM, and should be considered separately in defining optimum detectors.
Databáze:	OpenAIRE
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