Luiz Felipe Fracasso Chaves Barcellos scite author profile

In this work the latest developments a Monte Carlo simulator with continuous energy is reported. This simulator makes use of a sum of three probability distributions to represent the neutron spectrum. Two distributions have known shape, but have varying population of neutrons in time, and these are the fission neutron spectrum and the Maxwell-Boltzmann distribution. The third distribution has an a priori unknown and possibly variable shape with time and is determined from parametrizations of Monte Carlo simulation. In this work the possible neutron-matter interactions are simulated with exception of the up-scattering of neutrons. In order to preserve the thermal spectrum, neutrons are selected stochastically as being part of the thermal population and have an energy attributed to them taken from a Maxwellian distribution, such an approximation is valid due to the fact that for fast neutrons up-scattering occurrence is irrelevant, being only appreciable at low energies. It is then shown how this procedure can emulate the up-scattering effect by the increase in the kinetic energy of the neutron population. Since the simulator uses tags to identify the reactions it is possible not only to plot the distributions by neutron energy, but also by the type of interaction with matter and with the identification of the target nuclei involved in the process.

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On a Parametric Representation of the Angular Neutron Flux in the Energy Range from 1 eV to 10 MeV

Barcellos

Bodmann

Vilhena

2020

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Luiz Felipe Fracasso Chaves Barcellos

On a Continuous Energy Monte Carlo Simulator for Neutron Transport: Optimisation with Fission, Intermediate and Thermal Distributions

On a comparison of a neutron Monte Carlo transport simulation to a criticality benchmark experiment

On Pseudo-Cross Sections for Neutron Escape from a Domain by a Physical Monte Carlo Simulation

A Continuous Energy Neutron Transport Monte Carlo Simulator Project: Decomposition of the Neutron Energy Spectrum by Target Nuclei Tagging

On a Parametric Representation of the Angular Neutron Flux in the Energy Range from 1 eV to 10 MeV

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