Stephen Foiles
Stephen Foiles
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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
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
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
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
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
Surface step effects on nanoindentation
JA Zimmerman, CL Kelchner, PA Klein, JC Hamilton, SM Foiles
Physical Review Letters 87 (16), 165507, 2001
Application of the embedded-atom method to liquid transition metals
SM Foiles
Physical Review B 32 (6), 3409, 1985
Application of the embedded atom method to Ni3Al
SM Foiles, MS Daw
Journal of Materials Research 2 (1), 5-15, 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
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
Solutions of the reference-hypernetted-chain equation with minimized free energy
F Lado, SM Foiles, NW Ashcroft
Physical Review A 28 (4), 2374, 1983
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
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
Thermodynamic properties of fcc transition metals as calculated with the embedded-atom method
SM Foiles, JB Adams
Physical Review B 40 (9), 5909, 1989
How grain growth stops: A mechanism for grain-growth stagnation in pure materials
EA Holm, SM Foiles
Science 328 (5982), 1138-1141, 2010
Reconstruction of fcc (110) surfaces
SM Foiles
Surface Science 191 (1-2), L779-L786, 1987
Evaluation of harmonic methods for calculating the free energy of defects in solids
SM Foiles
Physical Review B 49 (21), 14930, 1994
Computation of grain boundary stiffness and mobility from boundary fluctuations
SM Foiles, JJ Hoyt
Acta Materialia 54 (12), 3351-3357, 2006
Dislocation mechanism for island diffusion on fcc (111) surfaces
JC Hamilton, MS Daw, SM Foiles
Physical review letters 74 (14), 2760, 1995
Kinetic phase field parameters for the Cu–Ni system derived from atomistic computations
JJ Hoyt, B Sadigh, M Asta, SM Foiles
Acta materialia 47 (11), 3181-3187, 1999
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