MICHEL, Bruno und LAMBRINOU, Konstantina, 2025. Opera HPC & SCORPION: accelerated optimization of advanced fuels for Gen-II/III reactors via the synergy of high-performance computing with multiscale material engineering. EPJ Nuclear Sciences & Technologies. 1 Januar 2025. Vol. 11, , p. 1-17. DOI 10.1051/epjn/2025040.

Michel, B., Lambrinou, K., 2025. Opera HPC & SCORPION: accelerated optimization of advanced fuels for Gen-II/III reactors via the synergy of high-performance computing with multiscale material engineering. EPJ Nuclear Sciences & Technologies 11, 1-17. https://doi.org/10.1051/epjn/2025040

Michel, B., & Lambrinou, K. (2025). Opera HPC & SCORPION: accelerated optimization of advanced fuels for Gen-II/III reactors via the synergy of high-performance computing with multiscale material engineering. EPJ Nuclear Sciences & Technologies, 11, 1-17. https://doi.org/10.1051/epjn/2025040

Michel B, Lambrinou K (2025) Opera HPC & SCORPION: accelerated optimization of advanced fuels for Gen-II/III reactors via the synergy of high-performance computing with multiscale material engineering.. EPJ Nuclear Sciences & Technologies 11:1-17. https://doi.org/10.1051/epjn/2025040

Michel, Bruno/ Lambrinou, Konstantina, Opera HPC & SCORPION: accelerated optimization of advanced fuels for Gen-II/III reactors via the synergy of high-performance computing with multiscale material engineering., EPJ Nuclear Sciences & Technologies 2025, 1-17.