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Journal Article FZJ-2016-04043
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DFT + U as a reliable method for efficient ab initio calculations of nuclear materials

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2016
Elsevier Science Amsterdam [u.a.]

Progress in nuclear energy 92, 142 - 146 () [10.1016/j.pnucene.2016.07.012]

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Abstract: Density functional theory (DFT)-based ab initio methods become standard research tools in various research fields, including nuclear materials science. However, having strongly correlated f-electrons, lanthanide- and actinide-bearing nuclear materials are computationally challenging for DFT methods and straightforward DFT calculations of these materials can easily produce false results. In this contribution we benchmark the DFT + U method, with the Hubbard U parameter derived ab initio, for prediction of structural and thermochemical parameters of nuclear materials, including various actinide-bearing molecular complexes and lanthanide-bearing monazite- and xenotime-type prospective ceramic nuclear waste host forms. Our studies show that the applied DFT + U method improves significantly prediction of DFT by producing results with uncertainties similar to those of the higher order, but computationally unfeasible ab initio methods, and the experimental data, and thus allows for reliable and feasible ab initio computation of even chemically complex nuclear materials.

Classification:
Contributing Institute(s):
  1. Nukleare Entsorgung und Reaktorsicherheit (IEK-6)
  2. JARA - HPC (JARA-HPC)
Research Program(s):
  1. 161 - Nuclear Waste Management (POF3-161) (POF3-161)
  2. BMBF-02NUK021A - Verbundprojekt Conditioning: Grundlegende Untersuchungen zur Immobilisierung langlebiger Radionuklide mittels Einbau in endlagerrelevante Keramiken; Teilprojekt A (BMBF-02NUK021A) (BMBF-02NUK021A)
  3. Investigation of the new materials for safe management of high level nuclear waste. (jiek61_20131101) (jiek61_20131101)
  4. Investigation of the new materials for safe management of high level nuclear waste. (jara0038_20121101) (jara0038_20121101)
  5. Towards controlled QCD transport coefficients (jara0039_20121101) (jara0039_20121101)
  6. HITEC - Helmholtz Interdisciplinary Doctoral Training in Energy and Climate Research (HITEC) (HITEC-20170406) (HITEC-20170406)

Appears in the scientific report 2016
Database coverage:
Current Contents - Engineering, Computing and Technology ; IF < 5 ; JCR ; No Authors Fulltext ; SCOPUS ; Science Citation Index Expanded ; Thomson Reuters Master Journal List ; Web of Science Core Collection
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The record appears in these collections:
Dokumenttypen > Aufsätze > Zeitschriftenaufsätze
JARA > JARA > JARA-JARA\-HPC
Institutssammlungen > IFN > IFN-2
Workflowsammlungen > Öffentliche Einträge
IEK > IEK-6
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 Datensatz erzeugt am 2016-07-27, letzte Änderung am 2024-07-12
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