EPJ Web of Conferences 146, 02033 (2017)
https://doi.org/10.1051/epjconf/201714602033

TALYS/TENDL verification and validation processes: Outcomes and recommendations

¹ United Kingdom Atomic Energy Authority, Culham Science Centre, Abingdon, Oxfordshire, UK
² Nuclear Data Section, IAEA, Vienna, Austria
³ Reactor Physics and Systems Behavior Laboratory, Paul Scherrer Institute, Villigen, Switzerland

^a e-mail: michael.fleming@ukaea.uk

Published online: 13 September 2017

Abstract

The TALYS-generated Evaluated Nuclear Data Libraries (TENDL) provide truly general-purpose nuclear data files assembled from the outputs of the T6 nuclear model codes system for direct use in both basic physics and engineering applications. The most recent TENDL-2015 version is based on both default and adjusted parameters of the most recent TALYS, TAFIS, TANES, TARES, TEFAL, TASMAN codes wrapped into a Total Monte Carlo loop for uncertainty quantification. TENDL-2015 contains complete neutron-incident evaluations for all target nuclides with Z ≤116 with half-life longer than 1 second (2809 isotopes with 544 isomeric states), up to 200 MeV, with covariances and all reaction daughter products including isomers of half-life greater than 100 milliseconds. With the added High Fidelity Resonance (HFR) approach, all resonances are unique, following statistical rules. The validation of the TENDL-2014/2015 libraries against standard, evaluated, microscopic and integral cross sections has been performed against a newly compiled UKAEA database of thermal, resonance integral, Maxwellian averages, 14 MeV and various accelerator-driven neutron source spectra. This has been assembled using the most up-to-date, internationally-recognised data sources including the Atlas of Resonances, CRC, evaluated EXFOR, activation databases, fusion, fission and MACS. Excellent agreement was found with a small set of errors within the reference databases and TENDL-2014 predictions.