Reactor simulation for antineutrino experiments using DRAGON and MURE

Reactor simulation for antineutrino experiments using DRAGON and MURE

Rising interest in nuclear reactors as a source of antineutrinos for experiments motivates validated, fast, and accessible simulations to predict reactor fission rates. Here we present results from the DRAGON and MURE simulation codes and compare them to other industry standards for reactor core mod...

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Bibliographic Details
Main Authors: Jones, Christopher LaDon, Bernstein, Aron M., Conrad, Janet, Djurcic, Z., Fallot, M., Giot, L., Keefer, G., Onillon, A., Winslow, Lindley
Other Authors: Massachusetts Institute of Technology. Department of Physics
Format: Article
Language:en_US
Published: American Physical Society 2012
Online Access:http://hdl.handle.net/1721.1/71873
https://orcid.org/0000-0002-9970-108X
https://orcid.org/0000-0002-6393-0438
Description
Summary:Rising interest in nuclear reactors as a source of antineutrinos for experiments motivates validated, fast, and accessible simulations to predict reactor fission rates. Here we present results from the DRAGON and MURE simulation codes and compare them to other industry standards for reactor core modeling. We use published data from the Takahama-3 reactor to evaluate the quality of these simulations against the independently measured fuel isotopic composition. The propagation of the uncertainty in the reactor operating parameters to the resulting antineutrino flux predictions is also discussed.

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