Contents |
Potential Types
This table contains information about the potentials use in MD++.
Name of Potential | executable | Types of Materials |
---|---|---|
Molecular Dynamics | md_$(SYS) | empty potential, for visualization and atom manipulation |
Finnis-Sinclair | fs_$(SYS) | BCC metals (Mo, Ta, W, ...) |
Embedded Atom Method | eam_$(SYS) | FCC metals (Cu, Au, ...) |
Aluminum Glue | alglue_$(SYS) | Al (FCC metal) |
Modified Embedded Atom Method | meam_$(SYS) | FCC metals, BCC metals, semiconductors |
Lennard-Jones | lj_$(SYS) | Noble gas (Ar, ...) |
Stillinger-Webber | sw_$(SYS) | Semiconductors (Si, Ge, C) |
Tersoff | tersoff_$(SYS) | Semiconductors (Si, Ge, C), PRB 39 5566 (1989) |
Tersoff88 | tersoff88_$(SYS) | Si(B) - PRB 37 6991 (1988), Si(C) - PRB 38 9902 (1988) In default, the parameters are set to Si(C). The parameters can be reset to Si(B) by modifying source code, "tersoff88.cpp". |
Brenner | brenner_$(SYS) | C, hydrocarbons |
"Potential" Problems
These are some potential files we used in our simulations of molecular structures. Please note that since we use a variety of codes, the potential files will be in a variety of foremats. The most common codes used by our group are LAMMPS ( and ParaDyne) and MD++. These codes use different file formats for EAM potentials, so all files should specify which file format. We will also try to provide a reference describing the potential.
Potential Files
MD++ Files
EAM Foiles potential for Gold. Ref: Park, H. S., Zimmerman J. A., Modeling inelasticity and failure in gold nanowires. Phys. Rev. B 72, 054106 (2005).
EAM Foiles potential for Copper. Ref: Aubry, S. and Hughes, D. A., Reductions in stacking fault widths in fcc crystals: Semiempirical calculations. Phys. Rev. B 73, 224116 (2006).
LAMMPS SET Files
EAM Foiles potential for Copper. Ref: Aubry, S. and Hughes, D. A., Reductions in stacking fault widths in fcc crystals: Semiempirical calculations. Phys. Rev. B 73, 224116 (2006).