Your search keyword '"Skoro, Goran P."' showing total 2 results

1. Validated scattering kernels for triphenylmethane at cryogenic temperatures

Author

Cantargi Florencia, Dawidowski Javier, Helman Christian, Márquez Damian José Ignacio, Granada Rolando Jose, Romanelli Giovanni, Cuello Julio Gabriel, Skoro Goran, and Krzystyniak Matthew

Subjects

Physics, QC1-999

Abstract

Cold neutrons are widely used in different fields of research such as the study of the structure and dynamics of solids and liquids, the investigation of magnetic materials, biological systems, polymer science, and a rapidly growing area of industrial applications. In a pulsed neutron source where the pulse width is an important parameter to be considered, hydrogenated materials are often used because of their high energy transfer in each collision. The preliminary scattering kernel for triphenylmethane, a material of great potential interest for cold neutron production, had been presented at the ND2016 conference. Here, a new model for the generation of the scattering kernels for this material, together with experimental results on its total cross section measured at the VESUVIO instrument (ISIS Neutron and Muon Source, United Kingdom) is presented. The thermal scattering kernel was generated by means of the NJOY Nuclear Data Processing system, using as input the vibrational modes obtained by density functional theory techniques (DFT). The agreement between measurements and our model validates the scattering kernel construction and the cross section library generated in ENDF and ACE formats.

Published

2020

2. Experimental validation of the temperature behavior of the ENDF/B-VIII.0 thermal scattering kernel for light water

Author

Marquez Damian Jose Ignacio, Dawidowski Javier, Granada Rolando Jose, Cantargi Florencia, Romanelli Giovanni, Helman Christian, Krzystyniak Matthew, Skoro Goran, and Roubtsov Danila

Subjects

Physics, QC1-999

Abstract

The Neutron Physics Department at Centro Atómico Bariloche developed new models for the interaction of thermal neutrons with water which have been validated against experimental data, including new thermal scattering experiments, and were adopted for the release of ENDF/B-VIII.0. Although the older models are, in general, good for most applications, some discrepancies had appeared in the case of heavy water, and this motivated new measurements that validated the new model. In the case of light water, the new model predicts a reduction of the total cross section around 0.025 eV when the temperature is increased from room temperature. This reduction, that is not predicted by the existing models, and potentially affects the calculation of temperature reactivity coefficients in nuclear reactors, has been traced to a shift in the vibrational frequency spectrum of liquid water. The only experimental data previously available is from an experiment performed at the Demokritos reactor in the ’60s at 293 K and 473 K, which validates the new model when the cross section ratios are computed. In order to verify this effect at a lower temperature range, a transmission experiment was carried out at the VESUVIO spectrometer in the ISIS facility in the UK in June 2018, measuring the total neutron cross section in the range from 283 K to 353 K. Here, we present this new experimental data and its comparison with the models.

Published

2020