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Thermal scattering libraries for cold and very-cold neutron reflector materials

Authors :
Dijulio, D
Marquez Damian, J
Bernasconi, M
Campi, D
Gorini, G
Kittelmann, T
Klinkby, E
Muhrer, G
Ramic, K
Rizzi, N
Santoro, V
Dijulio, Douglas D.
Marquez Damian, Jose Ignacio
Bernasconi, Marco
Campi, Davide
Gorini, Giuseppe
Kittelmann, Thomas
Klinkby, Esben
Muhrer, Gunter
Ramic, Kemal
Rizzi, Nicola
Santoro, Valentina
Dijulio, D
Marquez Damian, J
Bernasconi, M
Campi, D
Gorini, G
Kittelmann, T
Klinkby, E
Muhrer, G
Ramic, K
Rizzi, N
Santoro, V
Dijulio, Douglas D.
Marquez Damian, Jose Ignacio
Bernasconi, Marco
Campi, Davide
Gorini, Giuseppe
Kittelmann, Thomas
Klinkby, Esben
Muhrer, Gunter
Ramic, Kemal
Rizzi, Nicola
Santoro, Valentina
Publication Year :
2023

Abstract

We present recent developments of improved modelling methods for simulating neutron transport in reflector materials of interest for neutron source applications. These include materials to be used as traditional reflectors around the neutron moderator, such as beryllium, and also novel materials, such as nanodiamond particles, to be used as a reflector for very-cold neutrons in the neutron beam extraction area of a neutron scattering instrument. Of particular interest is the inclusion of physical effects that are not modelled in standard thermal scattering libraries used for Monte-Carlo simulations, such as extinction in beryllium reflectors and effects of small-angle neutron scattering from nanodiamond particles.

Details

Database :
OAIster
Notes :
STAMPA, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1427431226
Document Type :
Electronic Resource

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