Radiative neutron capture cross section of $^{242}$Pu measured at n_TOF-EAR1 in the unresolved resonance region up to 600 keV

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Report number	arXiv:2412.01332
Title	Radiative neutron capture cross section of $^{242}$Pu measured at n_TOF-EAR1 in the unresolved resonance region up to 600 keV
Author(s)	Lerendegui-Marco, J. (Seville U. ; Valencia U., IFIC) ; Guerrero, C. (Seville U. ; CNA, Seville) ; Mendoza, E. (Madrid, CIEMAT) ; Quesada, J.M. (Seville U.) ; Eberhardt, K. (Mainz U.) ; Junghans, A.R. (HZDR, Dresden) ; Alcayne, V. (Madrid, CIEMAT) ; Babiano, V. (Valencia U., IFIC) ; Aberle, O. (CERN) ; Andrzejewski, J. (Lodz U.) ; Audouin, L. (Orsay, IPN) ; Bécares, V. (Madrid, CIEMAT) ; Bacak, M. (TU Vienna) ; Balibrea-Correa, J. (Madrid, CIEMAT) ; Barbagallo, M. (INFN, Bari) ; Barros, S. (Lisbon, IST) ; Bečvár, F. (Charles U.) ; Beinrucker, C. (Frankfurt U.) ; Berthoumieux, E. (IRFU, Saclay) ; Billowes, J. (Manchester U.) ; Bosnar, D. (Zagreb U., Phys. Dept.) ; Brugger, M. (CERN) ; Caamaño, M. (Santiago de Compostela U.) ; Calviño, F. (Barcelona, Polytechnic U.) ; Calviani, M. (CERN) ; Cano-Ott, D. (Madrid, CIEMAT) ; Cardella, R. (CERN) ; Casanovas, A. (Barcelona, Polytechnic U.) ; Castelluccio, D.M. (ENEA, Casaccia ; INFN, Bologna) ; Cerutti, F. (CERN) ; Chen, Y.H. (Orsay, IPN) ; Chiaveri, E. (CERN) ; Colonna, N. (INFN, Bari) ; Cortés, G. (Barcelona, Polytechnic U.) ; Cortés-Giraldo, M.A. (Seville U.) ; Cosentino, L. (INFN, Catania) ; Damone, L.A. (INFN, Bari ; Bari U.) ; Diakaki, M. (IRFU, Saclay) ; Dietz, M. (Edinburgh U.) ; Domingo-Pardo, C. (Valencia U., IFIC) ; Dressler, R. (PSI, Villigen) ; Dupont, E. (IRFU, Saclay) ; Durán, I. (Santiago de Compostela U.) ; Fernández-Domínguez, B. (Santiago de Compostela U.) ; Ferrari, A. (CERN) ; Ferreira, P. (Lisbon, IST) ; Finocchiaro, P. (INFN, Catania) ; Furman, V. (Dubna, JINR) ; Göbel, K. (Frankfurt U.) ; García, A.R. (Madrid, CIEMAT) ; Gawlik, A. (Lodz U.) ; Glodariu, T. (Bucharest, IFIN-HH) ; Gonçalves, I.F. (Lisbon, IST) ; González-Romero, E. (Madrid, CIEMAT) ; Goverdovski, A. (Obninsk, Inst. Phys. Power Eng.) ; Griesmayer, E. (TU Vienna) ; Gunsing, F. (IRFU, Saclay ; CERN) ; Harada, H. (JAEA, Ibaraki) ; Heftrich, T. (Frankfurt U.) ; Heinitz, S. (PSI, Villigen) ; Heyse, J. (Euratom, Geel) ; Jenkins, D.G. (York U., England) ; Jericha, E. (TU Vienna) ; Käppeler, F. (KIT, Karlsruhe, IKP) ; Kadi, Y. (CERN) ; Katabuchi, T. (Tokyo Inst. Tech.) ; Kavrigin, P. (TU Vienna) ; Ketlerov, V. (Obninsk, Inst. Phys. Power Eng.) ; Khryachkov, V. (Obninsk, Inst. Phys. Power Eng.) ; Kimura, A. (JAEA, Ibaraki) ; Kivel, N. (PSI, Villigen) ; Kokkoris, M. (Natl. Tech. U., Athens) ; Krtička, M. (Charles U.) ; Leal-Cidoncha, E. (Santiago de Compostela U.) ; Lederer-Woods, C. (Edinburgh U.) ; Leeb, H. (TU Vienna) ; Meo, S. Lo (ENEA, Casaccia ; INFN, Bologna) ; Lonsdale, S.J. (Edinburgh U.) ; Losito, R. (CERN) ; Macina, D. (CERN) ; Marganiec, J. (Lodz U.) ; Martínez, T. (Madrid, CIEMAT) ; Massimi, C. (INFN, Bologna ; U. Bologna, DIFA) ; Mastinu, P. (INFN, Legnaro) ; Mastromarco, M. (INFN, Bari) ; Matteucci, F. (INFN, Trieste ; Trieste U.) ; Maugeri, E.A. (PSI, Villigen) ; Mengoni, A. (ENEA, Casaccia ; INFN, Bologna) ; Milazzo, P.M. (INFN, Trieste) ; Mingrone, F. (INFN, Bologna) ; Mirea, M. (Bucharest, IFIN-HH) ; Montesano, S. (CERN) ; Musumarra, A. (INFN, Catania ; Catania U.) ; Nolte, R. (Braunschweig, Phys. Tech. Bund.) ; Oprea, A. (Bucharest, IFIN-HH) ; Patronis, N. (Ioannina U.) ; Pavlik, A. (Vienna U.) ; Perkowski, J. (Lodz U.) ; Porras, J.I. (CERN ; Granada U.) ; Praena, J. (Granada U.) ; Rajeev, K. (Bhabha Atomic Res. Ctr.) ; Rauscher, T. (Hertfordshire U. ; Basel U.) ; Reifarth, R. (Frankfurt U.) ; Riego-Perez, A. (Barcelona, Polytechnic U.) ; Rout, P.C. (Bhabha Atomic Res. Ctr.) ; Rubbia, C. (CERN) ; Ryan, J.A. (Manchester U.) ; Sabaté-Gilarte, M. (CERN ; Seville U.) ; Saxena, A. (Bhabha Atomic Res. Ctr.) ; Schillebeeckx, P. (Euratom, Geel) ; Schmidt, S. (Frankfurt U.) ; Schumann, D. (PSI, Villigen) ; Sedyshev, P. (Dubna, JINR) ; Smith, A.G. (Manchester U.) ; Stamatopoulos, A. (Natl. Tech. U., Athens) ; Tagliente, G. (INFN, Bari) ; Tain, J.L. (Valencia U., IFIC) ; Tarifeño-Saldivia, A. (Valencia U., IFIC) ; Tassan-Got, L. (Orsay, IPN) ; Tsinganis, A. (Natl. Tech. U., Athens) ; Valenta, S. (Charles U.) ; Vannini, G. (INFN, Bologna ; U. Bologna, DIFA) ; Variale, V. (INFN, Bari) ; Vaz, P. (Lisbon, IST) ; Ventura, A. (INFN, Bologna) ; Vlachoudis, V. (CERN) ; Vlastou, R. (Natl. Tech. U., Athens) ; Wallner, A. (Australian Natl. U., Canberra) ; Warren, S. (Manchester U.) ; Weigand, M. (Frankfurt U.) ; Weiss, C. (CERN ; TU Vienna) ; Wolf, C. (Frankfurt U.) ; Woods, P.J. (Edinburgh U.) ; Wright, T. (Manchester U.) ; Zugec, P. (Zagreb U., Phys. Dept. ; CERN)
Document contact	Contact: arXiv
Imprint	2024-12-02
Number of pages	20
Note	20 pages, 19 figures, submitted to Phys. Rev. C
Subject category	nucl-ex ; Nuclear Physics - Experiment
Accelerator/Facility, Experiment	CERN PS ; nTOF
Abstract	The design of fast reactors burning MOX fuels requires accurate capture and fission cross sections. For the particular case of neutron capture on 242Pu, the NEA recommends that an accuracy of 8-12% should be achieved in the fast energy region (2 keV-500 keV) compared to their estimation of 35% for the current uncertainty. Integral irradiation experiments suggest that the evaluated cross section of the JEFF-3.1 library overestimates the 242Pu(n,{\gamma}) cross section by 14% in the range between 1 keV and 1 MeV. In addition, the last measurement at LANSCE reported a systematic reduction of 20-30% in the 1-40 keV range relative to the evaluated libraries and previous data sets. In the present work this cross section has been determined up to 600 keV in order to solve the mentioned discrepancies. A 242Pu target of 95(4) mg enriched to 99.959% was irradiated at the n TOF-EAR1 facility at CERN. The capture cross section of 242Pu has been obtained between 1 and 600 keV with a systematic uncertainty (dominated by background subtraction) between 8 and 12%, reducing the current uncertainties of 35% and achieving the accuracy requested by the NEA in a large energy range. The shape of the cross section has been analyzed in terms of average resonance parameters using the FITACS code as implemented in SAMMY, yielding results compatible with our recent analysis of the resolved resonance region.The results are in good agreement with the data of Wisshak and K"appeler and on average 10-14% below JEFF-3.2 from 1 to 250 keV, which helps to achieve consistency between integral experiments and cross section data. At higher energies our results show a reasonable agreement within uncertainties with both ENDF/B-VII.1 and JEFF-3.2. Our results indicate that the last experiment from DANCE underestimates the capture cross section of 242Pu by as much as 40% above a few keV.
Other source	Inspire
Copyright/License	preprint: (License: CC BY 4.0)

$Capture cross section of $^{242}$Pu in the energy range from 1 to 250 keV. The previous experimental data sets available in EXFOR are compared to the cross section reported in the main evaluated files.$ ${Top: Sketch of one of the targets ($^{242}$Pu on a thin Al backing)}. Bottom left: $\alpha$-radiography of one of the targets showing the homogeneity of the $^{242}$Pu deposits. Bottom right: Mounted stack of $^{242}$Pu targets placed in a purpose built holder.$ $Top: The four C$_{6}$D$_{6}$ scintillation detectors used to measure the capture $\gamma$-rays in n\_TOF-EAR1. Bottom: View of the $^{242}$Pu 7-target assembly placed in the neutron beam.$ Show more plots

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Record created 2024-12-04, last modified 2024-12-13

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