Testing and modeling HpGe detector with anti-Compton shield
Abstract
Simulating with GEANT4 of anti-Compton shield containing eight BGO scintillators that works on anti-coincidence with HpGe detector was presented. The coefficient value of Compton tail suppression on 60Co spectrum was taken by simulating and from experiment. Comparing results of experimental data with simulating were presented. The influence of anti-coincidence inclusion on the detector efficiency was determined with simulation.
About the Authors
N. T. TursunbayevRussian Federation
B. A. Urazbekov
Italy
References
1. K.N. Muhin, Eksperimental’naya yadernaya fizika, T.1. Fizika atomnogo yadra. - 4-e izd. (Energoatomizdat, Moscow 1983) 616 p. (In Russian)
2. A.I. Abramov et al., Osnovy eksperimental’nyh metodov yadernoj fiziki. 3-e izd. (Energoatomizdat, Moscow 1985) 488 p. (In Russian)
3. Yu.K. Akimov, Poluprovodnikovye detektory yadernyh izluchenij ( Dubna: JINR, 2009) 207 p. (In Russian)
4. Yu.A. Cirlin et al., Optimizaciya detektirovaniya gamma-izlucheniya scintillyacionnymi kristalami (Energoatomizdat, Moscow 1991) 152 p. (In Russian)
5. Nuclear Physics in the Internet, http://nuclphys.sinp.msu.ru
6. Geant4 http://geant4.cern.ch/
7. ROOT Data Analysis Framework https://root.cern.ch/
8. http://www.niic.nsc.ru/science/razrabotki/619-materials/bgo/1734-bgo/
Review
For citations:
Tursunbayev N.T., Urazbekov B.A. Testing and modeling HpGe detector with anti-Compton shield. Eurasian Journal of Physics and Functional Materials. 2020;4(3):213-225. https://doi.org/10.29317/ejpfm.2020040303