Broomstick experiment with copper in VR-1 reactor

•Broomstick experiment using the VR-1 reactor.•Collimated beam from the radial channel of the VR-1 reactor.•Measurement of neutron flux behind copper block.•Calculation of neutron flux behind copper block.•Discrepancies between calculation and measurement. Copper is an important structural material...

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Bibliographic Details
Published in:Annals of nuclear energy 2025-02, Vol.211, p.110993, Article 110993
Main Authors: Košťál, Michal, Losa, Evžen, Czakoj, Tomáš, Simakov, Stanislav, Zmeškal, Marek, Schulc, Martin, Šimon, Jan, Rypar, Vojtěch, Novák, Evžen, Cvachovec, František, Mravec, Filip, Přenosil, Václav, Krásný, Peter, Capote, Roberto, Matěj, Zdeněk
Format: Article
Language:English
Subjects:
Broomstick experiment
Deep neutron transport
Neutron pencil beam
Neutron transport in copper
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Summary:•Broomstick experiment using the VR-1 reactor.•Collimated beam from the radial channel of the VR-1 reactor.•Measurement of neutron flux behind copper block.•Calculation of neutron flux behind copper block.•Discrepancies between calculation and measurement. Copper is an important structural material used in nuclear technology, often used as acover for spent fuel canisters or planned to be used in fusion devices. Despite its significance, there is a lack of integral experiments useful for validating and improving the evaluations of copper nuclear data. To address this gap, a neutron leakage experiment was conducted a few years ago using a point 252Cf(s.f.) neutron source placed inside a large block of copper. In this work a pencil beam transmission-attenuation experiment (a broomstick) employing various thicknesses (5–20 cm) of copper blocks (cylinders of 6 cm in diameter) was undertaken to expand the dataset of available experiments for copper in the fast neutron energy range (1–10 MeV). This type of experiment has the highest sensitivity to the total cross sections, and sensitivities are different from other integral experiments, making it a complementary measurement to already existing integral data. The measurement was performed using stilbene scintillation spectrometry. Measured transmission shows that the current INDEN evaluation, proposed to be adopted for ENDF/B-VIII.1 and JEFF-4 libraries, exhibits excellent agreement with experimental data. The JEFF-3.3 evaluation displays significant discrepancies, consistent with previous results from integral experiments involving copper. In the case of JENDL-5, discrepancies were found in the energy region 1.7–4.9 MeV.
ISSN:0306-4549
DOI:10.1016/j.anucene.2024.110993