EPJ Web of Conferences (Jan 2024)

Description and outlook of the 50,53Cr(n,γ) cross section measurement at n_TOF and HiSPANoS

  • Pérez-Maroto P.,
  • Guerrero C.,
  • Casanovas A.,
  • Fernández B.,
  • Aberle O.,
  • Alcayne V.,
  • Altieri S.,
  • Amaducci S.,
  • Andrzejewski J.,
  • Babiano-Suarez V.,
  • Bacak M.,
  • Balibrea Correa J.,
  • Beltrami C.,
  • Bennett S.,
  • Bernardes A. P.,
  • Berthoumieux E.,
  • Beyer R.,
  • Boromiza M.,
  • Bosnar D.,
  • Caamaño M.,
  • Calviño F.,
  • Calviani M.,
  • Cano-Ott D.,
  • Castelluccio D. M.,
  • Cerutti F.,
  • Cescutti G.,
  • Chasapoglou S.,
  • Chiaveri E.,
  • Colombetti P.,
  • Colonna N.,
  • Console Camprini P.,
  • Cortés G.,
  • Cortés-Giraldo M. A.,
  • Cosentino L.,
  • Cristallo S.,
  • Dellmann S.,
  • Di Castro M.,
  • Di Maria S.,
  • Diakaki M.,
  • Dietz M.,
  • Domingo-Pardo C.,
  • Dressler R.,
  • Dupont E.,
  • Durán I.,
  • Eleme Z.,
  • Fargier S.,
  • Fernández B.,
  • Fernández-Domínguez B.,
  • Finocchiaro P.,
  • Fiore S.,
  • Furman V.,
  • García-Infantes F.,
  • Gawlik-Ramięga A.,
  • Gervino G.,
  • Gilardoni S.,
  • González-Romero E.,
  • Gunsing F.,
  • Gustavino C.,
  • Heyse J.,
  • Hillman W.,
  • Jenkins D. G.,
  • Jericha E.,
  • Junghans A.,
  • Kadi Y.,
  • Kaperoni K.,
  • Kaur G.,
  • Kimura A.,
  • Knapová I.,
  • Kokkoris M.,
  • Kopatch Y.,
  • Krtička M.,
  • Kyritsis N.,
  • Ladarescu I.,
  • Lederer-Woods C.,
  • Lerendegui-Marco J.,
  • Lerner G.,
  • Manna A.,
  • Martínez T.,
  • Masi A.,
  • Massimi C.,
  • Mastinu P.,
  • Mastromarco M.,
  • Maugeri E. A.,
  • Mazzone A.,
  • Mendoza E.,
  • Mengoni A.,
  • Michalopoulou V.,
  • Milazzo P. M.,
  • Mucciola R.,
  • Murtas F.,
  • Musacchio-Gonzalez E.,
  • Musumarra A.,
  • Negret A.,
  • Pérez de Rada A.,
  • Patronis N.,
  • Pavón-Rodríguez J. A.,
  • Pellegriti M. G.,
  • Perkowski J.,
  • Petrone C.,
  • Pirovano E.,
  • Plaza del Olmo J.,
  • Pomp S.,
  • Porras I.,
  • Praena J.,
  • Quesada J. M.,
  • Reifarth R.,
  • Rochman D.,
  • Romanets Y.,
  • Rubbia C.,
  • Sánchez-Caballero A.,
  • Sabaté-Gilarte M.,
  • Schillebeeckx P.,
  • Schumann D.,
  • Sekhar A.,
  • Smith A. G.,
  • Sosnin N. V.,
  • Stamati M. E.,
  • Sturniolo A.,
  • Tagliente G.,
  • Tarifeño-Saldivia A.,
  • Tarrío D.,
  • Torres-Sánchez P.,
  • Vagena E.,
  • Valenta S.,
  • Variale V.,
  • Vaz P.,
  • Vecchio G.,
  • Vescovi D.,
  • Vlachoudis V.,
  • Vlastou R.,
  • Wallner A.,
  • Woods P. J.,
  • Wright T.,
  • Zarrella R.,
  • Žugec P.

DOI
https://doi.org/10.1051/epjconf/202429401004
Journal volume & issue
Vol. 294
p. 01004

Abstract

Read online

Chromium is a very relevant element regarding criticality safety in nuclear reactors because of its presence in stainless steel, an important structural material. Currently, there are serious discrepancies between the different evaluations regarding the neutron capture cross sections of 50Cr and 53Cr, most probably related to the difficulty of reducing and then estimating the very large neutron scattering effects on the shape of the resonances. In this context, there is a recent entry in the Nuclear Energy Agency (NEA) High Priority Request List (HPRL) to measure these reactions between 1 and 100 keV with an accuracy of 8-10%. In response to this request, we have performed a time-of-flight experiment at CERN n_TOF (Switzerland) and a complementary activation experimenton 50Crat30and90keVatCNAHiSPANoS(Spain).Theexperiments are presented herein, together with a discussion on the quality of the preliminary data and the results to be expected.