Development of a detector in order to investigate (n,γ)-cross sections by ToF method with a very short flight path

The determination of neutron capture cross sections of some radioactive isotopes like 85Kr is very important to improve the knowledge about the s process. Based on its own radioactive decay these isotopes can only be used in small samples inside a TOF facility, which is why the neutron flux of these...

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Bibliographic Details
Published inJournal of physics. Conference series Vol. 940; no. 1; pp. 12060 - 12062
Main Authors Wolf, C, Glorius, J, Reifarth, R, Weigand, M
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.01.2018
Subjects
Absorption cross sections
Flight paths
Neutron flux
Nuclear capture
Physics
Radioactive decay
Radioisotopes
Scintillation counters
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Summary:The determination of neutron capture cross sections of some radioactive isotopes like 85Kr is very important to improve the knowledge about the s process. Based on its own radioactive decay these isotopes can only be used in small samples inside a TOF facility, which is why the neutron flux of these facilities has to be very high. Unfortunately the neutron flux of the FRANZ setup at Goethe University Frankfurt, which will offer the highest neutron flux in astrophysical energy regions (keV region) [1], is still to low to investigate isotopes like 85Kr. Therefore a new setup called NAUTILUS is under development, which will reduce the flight path from 80 cm to a few centimeter to enhance the angular coverage of the sample and therefore increase the neutron flux by a factor of nearly 100. This implies a higher intensity of the γ-flash energy inside the detector and the neutron induced background. Hence the geometry, the scintillator material and the moderator were optimized by GEANT3 simulations.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/940/1/012060