CascadesDB: Browse

Material

Publications

B1: A. E. Sand, S. L. Dudarev, K. Nordlund, "High-energy collision cascades in tungsten: Dislocation loops structure and clustering scaling laws", EPL (Europhysics Letters) 103, 46003 (2013). [link to article] [data sets]
B2: K. Nordlund, S. J. Zinkle, A. E. Sand, F. Granberg, R. S. Averback, R. Stoller, T. Suzudo, L. Malerba, F. Banhart, W. J. Weber, F. Willaime, S. L. Dudarev, D. Siméone, "Improving atomic displacement and replacement calculations with physically realistic damage models", Nature Communications 9, 1084 (2018). [link to article] [data sets]
B3: W. Setyawan, G. Nandipati, K. J. Roche, H. L. Heinisch, B. D. Wirth, R. J. Kurtz, "Displacement cascades and defects annealing in tungsten, Part I: Defect database from molecular dynamics simulations", Journal of Nuclear Materials 462, 329-337 (2015). [link to article] [data sets]
B4: J. Byggmästar, F. Granberg, A. E. Sand, A. Pirttikoski, R. Alexander, M.-C. Marinica, K. Nordlund, "Collision cascades overlapping with self-interstitial defect clusters in Fe and W", Journal of Physics: Condensed Matter 31, 245402 (2019). [link to article] [data sets]
B5: M. J. Aliaga, R. Schäublin, J. F. Löffler, M. J. Caturla, "Surface-induced vacancy loops and damage dispersion in irradiated Fe thin films", Acta Materialia 101, 22-30 (2015). [link to article] [data sets]
B6: A. De Backer, C. Domain, C. S. Becquart, L. Luneville, D. Siméone, A. E. Sand, K. Nordlund, "A model of defect cluster creation in fragmented cascades in metals based on morphological analysis", Journal of Physics: Condensed Matter 30, 405701 (2018). [link to article] [data sets]
B12: A. E. Sand, K. Nordlund, "On the lower energy limit of electronic stopping in simulated collision cascades in Ni, Pd and Pt", Journal of Nuclear Materials 456, 99-105 (2015). [link to article] [data sets]
B13: A. E. Sand, S. L. Dudarev, K. Nordlund, "High-energy collision cascades in tungsten: Dislocation loops structure and clustering scaling laws", Europhysics Letters 103, 46003 (2013). [link to article] [data sets]
B21: F. Granberg, J. Byrggmästar, K. Nordlund, "Cascade overlap with vacancy-type defects in Fe", The European Physical Journal B 92, 146 (2019). [link to article] [data sets]
B22: A. Fellman, A. E. Sand, J. Byggmästar, K. Nordlund, "Radiation damage in tungsten from cascade overlap with voids and vacancy clusters", Journal of Physics: Condensed Matter 31, 405402 (2019). [link to article] [data sets]
B23: Y. Chen, Y.-H. Li, N. Gao, H.-B. Zhou, W. Hu, G.-H. Lu, F. Gao, H. Deng, "New interatomic potentials of W, Re and W-Re alloy for radiation defects", Journal of Nuclear Materials 502, 141-153 (2018). [link to article] [data sets]

Potentials

Data Link	Details	Reference	Comment
data	P1	B17: C. Björkas, K. Nordlund, S. Dudarev, "Modelling radiation effects using the ab-initio based tungsten and vanadium potentials", Nuclear Instruments and Methods in Physics Research Section B 267, 3204-3208 (2009). [link to article]	Erratum https://doi.org/10.1016/j.nimb.2010.01.011
data	P2
data	P3	B7: N. Juslin, B. D. Wirth, "Interatomic potentials for simulation of He bubble formation in W", Journal of Nuclear Materials 432, 61-66 (2013). [link to article]
data	P4	B8: G. J. Ackland, M. I. Mendelev, D. J. Srolovitz, S. Han, A. V. Barashev, "Development of an interatomic potential for phosphorus impurities in α-iron", Journal of Physics: Condensed Matter 16, S2629 (2004). [link to article]
data	P5	B9: L. Malerba, M. C. Marinica, N. Anento, C. Björkas, H. Nguyen, C. Domain, F. Djurabekova, P. Olsson, K. Nordlund, A. Serra, D. Terentyev, F. Willaime, C. S. Becquart, "Comparison of empirical interatomic potentials for iron applied to radiation damage studies", Journal of Nuclear Materials 406, 19-38 (2010). [link to article]	Potential by Marinica et al.
data	P6	B10: J. Byggmästar, F. Granberg, K.Nordlund, "Effects of the short-range repulsive potential on cascade damage in iron", Journal of Nuclear Materials 508, 530-539 (2018). [link to article]
data	P7	B8: G. J. Ackland, M. I. Mendelev, D. J. Srolovitz, S. Han, A. V. Barashev, "Development of an interatomic potential for phosphorus impurities in α-iron", Journal of Physics: Condensed Matter 16, S2629 (2004). [link to article]
data	P8	B11: S. L. Dudarev, P. M. Derlet, "A 'magnetic' interatomic potential for molecular dynamics simulations", Journal of Physics: Condensed Matter 17, 239001 (2007). [link to article]	Erratum https://doi.org/10.1088/0953-8984/19/23/239001
data	P9	B14: S. M. Foiles, "Application of the embedded-atom method to liquid transition metals", Physical Review B 32, 3409 (1985). [link to article]	Pd, Pt; Modified EAM potential; see Nordlund et al., "Defect production in collision cascades in elemental semiconductors and fcc metals", <em>Physical Review B</em> <b>57</b>, 7556 (1998); doi:10.1103/PhysRevB.57.7556
data	P10	B15: C. L. Kelchner, D. M. Halstead, L. S. Perkins, N. M. Wallace, A. E. DePristo, "Construction and evaluation of embedding functions", Surface Science 310, 425-435 (1994). [link to article]	"Cu-CEM" potential
data	P11	B16: M. J. Sabochick, N. Q. Lam, "Radiation-induced amorphization of ordered intermetallic compounds CuTi, CuTi₂, and Cu₄Ti₃: A molecular-dynamics study", Physical Review B 43, 5243 (1991). [link to article]	"Cu-SL" potential
data	P12	B18: G. J. Ackland, R. Thetford, "An improved N-body semi-empirical model for body-centred cubic transition metals", Philosophical Magazine A 56, 15-30 (1987). [link to article]
data	P13	B19: T. Ahlgren, K. Heinola, N. Juslin, A. Kuronen, "Bond-order potential for point and extended defect simulations in tungsten", Journal of Applied Physics 107, 033516 (2010). [link to article]
data	P14	B14: S. M. Foiles, "Application of the embedded-atom method to liquid transition metals", Physical Review B 32, 3409 (1985). [link to article]	Au, Ag, Ni
data	P15	B18: G. J. Ackland, R. Thetford, "An improved N-body semi-empirical model for body-centred cubic transition metals", Philosophical Magazine A 56, 15-30 (1987). [link to article]	Modified according to doi: 10.1103/PhysRevB.58.2361
data	P16	B23: Y. Chen, Y.-H. Li, N. Gao, H.-B. Zhou, W. Hu, G.-H. Lu, F. Gao, H. Deng, "New interatomic potentials of W, Re and W-Re alloy for radiation defects", Journal of Nuclear Materials 502, 141-153 (2018). [link to article]

People

María CATURLA, Department of Applied Physics, University of Alicante, Spain
Huiqiu DENG, Hunan University, China
Christophe DOMAIN, EDF R&D Lab Les Renardières, France
Aslak FELMANN, Department of Physics, University of Helsinki, Finland
Fredric GRANBERG, Department of Physics, University of Helsinki, Finland
Andrea SAND, Department of Physics, University of Helsinki, Finland
Iisa SAUNAMÄKI, Aalto University, Finland
Wahyu SETYAWAN, Pacific Northwest National Laboratory (PNNL), United States of America