lammps/doc/pair_sw.txt

"LAMMPS WWW Site"_lws - "LAMMPS Documentation"_ld - "LAMMPS Commands"_lc :c

:link(lws,http://lammps.sandia.gov)
:link(ld,Manual.html)
:link(lc,Section_commands.html#comm)

:line

pair_style sw command :h3

[Syntax:]

pair_style sw :pre

[Examples:]

pair_style sw
pair_coeff * * si.sw Si
pair_coeff * * SiC.sw Si C Si :pre

[Description:]

The {sw} style computes a 3-body "Stillinger-Weber"_#Stillinger
potential for the energy E of a system of atoms as

:c,image(Eqs/pair_sw.jpg)

where phi2 is a two-body term and phi3 is a three-body term.  The
summations in the formula are over all neighbors J and K of atom I
within a cutoff distance = a*sigma.

Only a single pair_coeff command is used with the {sw} style which
specifies a Stillinger-Weber potential file with parameters for all
needed elements.  These are mapped to LAMMPS atom types by specifying
N additional arguments after the filename in the pair_coeff command,
where N is the number of LAMMPS atom types:

filename
N element names = mapping of SW elements to atom types :ul

As an example, imagine the SiC.sw file has Stillinger-Weber values for
Si and C.  If your LAMMPS simulation has 4 atoms types and you want
the 1st 3 to be Si, and the 4th to be C, you would use the following
pair_coeff command:

pair_coeff * * SiC.sw Si Si Si C :pre

The 1st 2 arguments must be * * so as to span all LAMMPS atom types.
The first three Si arguments map LAMMPS atom types 1,2,3 to the Si
element in the SW file.  The final C argument maps LAMMPS atom type 4
to the C element in the SW file.  If a mapping value is specified as
NULL, the mapping is not performed.  This can be used when a {sw}
potential is used as part of the {hybrid} pair style.  The NULL values
are placeholders for atom types that will be used with other
potentials.

Stillinger-Weber files in the {potentials} directory of the LAMMPS
distribution have a ".sw" suffix.  Lines that are not blank or
comments (starting with #) define parameters for a triplet of
elements.  The parameters in a single entry correspond to the two-body
and three-body coefficients in the formula above:

element 1 (the center atom in a 3-body interaction)
element 2
element 3
epsilon (energy units)
sigma (distance units)
a
lambda
gamma
costheta0
A
B
p
q :ul

The A, B, p, and q parameters are used only for two-body
interactions.  The lambda, gamma, and costheta0 parameters are used only for
three-body interactions. The epsilon, sigma and a parameters are used
for both two-body and three-body interactions.  
The non-annotated parameters are unitless.

The Stillinger-Weber potential file must contain entries for all the
elements listed in the pair_coeff command.  It can also contain
entries for additional elements not being used in a particular
simulation; LAMMPS ignores those entries.

For a single-element simulation, only a single entry is required
(e.g. SiSiSi).  For a two-element simulation, the file must contain 8
entries (for SiSiSi, SiSiC, SiCSi, SiCC, CSiSi, CSiC, CCSi, CCC), that
specify SW parameters for all permutations of the two elements
interacting in three-body configurations.  Thus for 3 elements, 27
entries would be required, etc.

As annotated above, the first element in the entry is the center atom
in a three-body interaction.  Thus an entry for SiCC means a Si atom
with 2 C atoms as neighbors.  By symmetry, three-body parameters for
SiCSi and SiSiC entries should be the same.   The parameters used for 
the two-body interaction come
from the entry where the 2nd element is repeated.  Thus the two-body
parameters for Si interacting with C, comes from the SiCC entry.  
Again by symmetry, the two-body parameters in the SiCC
and CSiSi entries should thus be the same. 
The parameters used for a particular three-body 
interaction come from the entry with the corresponding three elements. 
The parameters used only for two-body interactions (A, B, p, and q) 
in entries whose 2nd and 3rd element are different (e.g. SiCSi) 
are not used for anything and can be set to 0.0 if desired.

[Restrictions:]

This pair potential requires the "newton"_newton.html setting to be
"on" for pair interactions.

[Related commands:]

"pair_coeff"_pair_coeff.html

[Default:] none

:line

:link(Stillinger)
[(Stillinger)] Stillinger and Weber, Phys Rev B, 31, 5262 (1985).