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Autores principales: de Oliveira, Luiz Paulo, Souza, Alexandre Pinho dos Santos, Santos, Carlos Gabriel da Silva, Júnior, Iberê Souza Ribeiro, Silva, Barbara Perez Gonçalves, Pereira, Marco Antonio Stanojev, Genezini, Frederico Antonio
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2511.19195
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author de Oliveira, Luiz Paulo
Souza, Alexandre Pinho dos Santos
Santos, Carlos Gabriel da Silva
Júnior, Iberê Souza Ribeiro
Silva, Barbara Perez Gonçalves
Pereira, Marco Antonio Stanojev
Genezini, Frederico Antonio
author_facet de Oliveira, Luiz Paulo
Souza, Alexandre Pinho dos Santos
Santos, Carlos Gabriel da Silva
Júnior, Iberê Souza Ribeiro
Silva, Barbara Perez Gonçalves
Pereira, Marco Antonio Stanojev
Genezini, Frederico Antonio
contents Neutron transport inside the reflector tank of the new Brazilian nuclear reactor, called the RMB (Brazilian Multipurpose Reactor), is investigated using the stochastic Monte Carlo method. One of the main characteristics of research nuclear reactors is the core power density, which is proportional to the neutron flux generated in the fission reaction. The RMB is part of the new generation of multipurpose reactors, and studying neutron transport is essential for the project to meet its objectives of producing radioisotopes, irradiating materials, and generating neutron beams for scientific investigations. The neutron moderation process in the reflector tank is very well described by Maxwellian distributions, which provide temperatures ranging from T = 331.5 K in the core to T = 266.8 K in the peripheral regions. The relative proportions reveal the predominance (52%) of epithermal neutrons in the reactor core, followed by thermal (29%) and fast (19%) neutrons. The moderation process proves to be effective, considering that 100% of the neutrons fall within the thermal spectrum near the reflector tank wall. The fits using Maxwellian distributions reveal another effect of neutron moderation, a shift in the peak wavelength from 1.07 Å to 1.19 Å. The same effect is observed along the tube that supplies a neutron beam to the RMB imaging instrument, with $λ_{peak}$ = 1.18 Å increasing to $λ_{peak}$ = 1.21 Å.
format Preprint
id arxiv_https___arxiv_org_abs_2511_19195
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Insights into neutron transport in a new multipurpose nuclear reactor
de Oliveira, Luiz Paulo
Souza, Alexandre Pinho dos Santos
Santos, Carlos Gabriel da Silva
Júnior, Iberê Souza Ribeiro
Silva, Barbara Perez Gonçalves
Pereira, Marco Antonio Stanojev
Genezini, Frederico Antonio
Instrumentation and Detectors
Neutron transport inside the reflector tank of the new Brazilian nuclear reactor, called the RMB (Brazilian Multipurpose Reactor), is investigated using the stochastic Monte Carlo method. One of the main characteristics of research nuclear reactors is the core power density, which is proportional to the neutron flux generated in the fission reaction. The RMB is part of the new generation of multipurpose reactors, and studying neutron transport is essential for the project to meet its objectives of producing radioisotopes, irradiating materials, and generating neutron beams for scientific investigations. The neutron moderation process in the reflector tank is very well described by Maxwellian distributions, which provide temperatures ranging from T = 331.5 K in the core to T = 266.8 K in the peripheral regions. The relative proportions reveal the predominance (52%) of epithermal neutrons in the reactor core, followed by thermal (29%) and fast (19%) neutrons. The moderation process proves to be effective, considering that 100% of the neutrons fall within the thermal spectrum near the reflector tank wall. The fits using Maxwellian distributions reveal another effect of neutron moderation, a shift in the peak wavelength from 1.07 Å to 1.19 Å. The same effect is observed along the tube that supplies a neutron beam to the RMB imaging instrument, with $λ_{peak}$ = 1.18 Å increasing to $λ_{peak}$ = 1.21 Å.
title Insights into neutron transport in a new multipurpose nuclear reactor
topic Instrumentation and Detectors
url https://arxiv.org/abs/2511.19195