| Embedded-atom-method functions for the fcc metals Cu, Ag, Au, Ni, Pd, Pt, and their alloys SM Foiles, MI Baskes, MS Daw Physical review B 33 (12), 7983, 1986 | 5688 | 1986 |
| The embedded-atom method: a review of theory and applications MS Daw, SM Foiles, MI Baskes Materials Science Reports 9 (7-8), 251-310, 1993 | 2106 | 1993 |
| Spectral neighbor analysis method for automated generation of quantum-accurate interatomic potentials AP Thompson, LP Swiler, CR Trott, SM Foiles, GJ Tucker Journal of Computational Physics 285, 316-330, 2015 | 996 | 2015 |
| Survey of computed grain boundary properties in face-centered cubic metals: I. Grain boundary energy DL Olmsted, SM Foiles, EA Holm Acta Materialia 57 (13), 3694-3703, 2009 | 731 | 2009 |
| Calculation of the surface segregation of Ni-Cu alloys with the use of the embedded-atom method SM Foiles Physical Review B 32 (12), 7685, 1985 | 689 | 1985 |
| Surface step effects on nanoindentation JA Zimmerman, CL Kelchner, PA Klein, JC Hamilton, SM Foiles Physical Review Letters 87 (16), 165507, 2001 | 578 | 2001 |
| Application of the embedded-atom method to liquid transition metals SM Foiles Physical Review B 32 (6), 3409, 1985 | 550 | 1985 |
| Application of the embedded atom method to Ni3Al SM Foiles, MS Daw Journal of Materials Research 2 (1), 5-15, 1987 | 450 | 1987 |
| Self-diffusion and impurity diffusion of fee metals using the five-frequency model and the embedded atom method JB Adams, SM Foiles, WG Wolfer Journal of Materials Research 4 (1), 102-112, 1989 | 438 | 1989 |
| Survey of computed grain boundary properties in face-centered cubic metals—II: Grain boundary mobility DL Olmsted, EA Holm, SM Foiles Acta materialia 57 (13), 3704-3713, 2009 | 430 | 2009 |
| Atomistic simulations of elastic deformation and dislocation nucleation during nanoindentation ET Lilleodden, JA Zimmerman, SM Foiles, WD Nix Journal of the Mechanics and Physics of Solids 51 (5), 901-920, 2003 | 348 | 2003 |
| Solutions of the reference-hypernetted-chain equation with minimized free energy F Lado, SM Foiles, NW Ashcroft Physical Review A 28 (4), 2374, 1983 | 338 | 1983 |
| Computing the mobility of grain boundaries KGF Janssens, D Olmsted, EA Holm, SM Foiles, SJ Plimpton, PM Derlet Nature materials 5 (2), 124-127, 2006 | 301 | 2006 |
| How grain growth stops: A mechanism for grain-growth stagnation in pure materials EA Holm, SM Foiles Science 328 (5982), 1138-1141, 2010 | 291 | 2010 |
| Thermodynamic properties of fcc transition metals as calculated with the embedded-atom method SM Foiles, JB Adams Physical Review B 40 (9), 5909, 1989 | 278 | 1989 |
| Reconstruction of fcc (110) surfaces SM Foiles Surface Science 191 (1-2), L779-L786, 1987 | 240 | 1987 |
| Computation of grain boundary stiffness and mobility from boundary fluctuations SM Foiles, JJ Hoyt Acta Materialia 54 (12), 3351-3357, 2006 | 220 | 2006 |
| Evaluation of harmonic methods for calculating the free energy of defects in solids SM Foiles Physical Review B 49 (21), 14930, 1994 | 219 | 1994 |
| Comparing grain boundary energies in face-centered cubic metals: Al, Au, Cu and Ni EA Holm, DL Olmsted, SM Foiles Scripta Materialia 63 (9), 905-908, 2010 | 180 | 2010 |
| Roadmap on multiscale materials modeling E Van Der Giessen, PA Schultz, N Bertin, VV Bulatov, W Cai, G Csányi, ... Modelling and Simulation in Materials Science and Engineering 28 (4), 043001, 2020 | 169 | 2020 |