Enviar artigo por via de e-mail Grazing-Incidence Neutron Spectrometer Detecting Neutrons and Charged Particles
- Autores: Zhaketov V.D.1, Petrenko A.V.1, Vdovichev S.N.2, Travkin V.V.2, Csik A.3, Kopatch Y.N.1, Gledenov Y.M.1, Sansarbayar E.1, Gundorin N.A.1, Nikitenko Y.V.1, Aksenov V.L.1,4
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Afiliações:
- Joint Institute for Nuclear Research
- Institute for Physics of Microstructures, Russian Academy of Sciences
- Institute for Nuclear Research, Hungarian Academy of Sciences
- National Research Centre “Kurchatov Institute”
- Edição: Volume 13, Nº 3 (2019)
- Páginas: 478-487
- Seção: Article
- URL: https://journals.rcsi.science/1027-4510/article/view/196333
- DOI: https://doi.org/10.1134/S1027451019030352
- ID: 196333
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Resumo
An ionization chamber is installed to the REMUR neutron spectrometer, situated at channel no. 8 of the IBR-2. A layered structure containing a layer of the isotope under study with a thickness of several nanometers is placed into the chamber. A neutron beam enters the chamber and is incident on the structure. The reflected neutron beam and the neutron beam transmitted through the structure are recorded by a detector located outside the chamber. A fraction of neutrons incident on the structure is captured by the nuclei of the isotope under study. As a result, secondary radiation is generated in the form of charged particles, which are recorded by the ionization chamber. The dependences of the neutron and charged particle intensities on the transmitted wave vector of neutrons are used to determine the spatial dependences of the potential of interaction between neutrons with the entire structure and with a layer of the isotope under study. The neutron spectrometer in grazing geometry, using which the neutrons and charged particles are recorded in studying the layered structures, is described. The results of spectrometer testing with the use of structures containing the 6Li isotope are given.
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Sobre autores
V. Zhaketov
Joint Institute for Nuclear Research
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980
A. Petrenko
Joint Institute for Nuclear Research
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980
S. Vdovichev
Institute for Physics of Microstructures, Russian Academy of Sciences
Email: nikiten@nf.jinr.ru
Rússia, Nizhny Novgorod, 603087
V. Travkin
Institute for Physics of Microstructures, Russian Academy of Sciences
Email: nikiten@nf.jinr.ru
Rússia, Nizhny Novgorod, 603087
A. Csik
Institute for Nuclear Research, Hungarian Academy of Sciences
Email: nikiten@nf.jinr.ru
Hungria, Debrecen, H-4001
Yu. Kopatch
Joint Institute for Nuclear Research
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980
Yu. Gledenov
Joint Institute for Nuclear Research
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980
E. Sansarbayar
Joint Institute for Nuclear Research
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980
N. Gundorin
Joint Institute for Nuclear Research
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980
Yu. Nikitenko
Joint Institute for Nuclear Research
Autor responsável pela correspondência
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980
V. Aksenov
Joint Institute for Nuclear Research; National Research Centre “Kurchatov Institute”
Email: nikiten@nf.jinr.ru
Rússia, Dubna, Moscow oblast, 141980; Moscow, 123098
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