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rLAMMPS lammps
fix_phonon.html
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<HTML>
<CENTER><A
HREF =
"http://lammps.sandia.gov"
>
LAMMPS WWW Site
</A>
-
<A
HREF =
"Manual.html"
>
LAMMPS Documentation
</A>
-
<A
HREF =
"Section_commands.html#comm"
>
LAMMPS Commands
</A>
</CENTER>
<HR>
<H3>
fix phonon command
</H3>
<P><B>
Syntax:
</B>
</P>
<PRE>
fix ID group-ID phonon N Noutput Nwait map_file prefix keyword values ...
</PRE>
<UL><LI>
ID, group-ID are documented in
<A
HREF =
"fix.html"
>
fix
</A>
command
<LI>
phonon = style name of this fix command
<LI>
N = measure the Green's function every this many timesteps
<LI>
Noutput = output the dynamical matrix every this many measurements
<LI>
Nwait = wait this many timesteps before measuring
<LI>
map_file =
<I>
file
</I>
or
<I>
GAMMA
</I>
<PRE>
<I>
file
</I>
is the file that contains the mapping info between atom ID and the lattice indices.
</PRE>
<PRE>
<I>
GAMMA
</I>
flags to treate the whole simulation box as a unit cell, so that the mapping
info can be generated internally. In this case, dynamical matrix at only the gamma-point
will/can be evaluated.
</PRE>
<LI>
prefix = prefix for output files
<LI>
one or none keyword/value pairs may be appended
<LI>
keyword =
<I>
sysdim
</I>
or
<I>
nasr
</I>
<PRE>
<I>
sysdim
</I>
value = d
d = dimension of the system, usually the same as the MD model dimension
<I>
nasr
</I>
value = n
n = number of iterations to enforce the acoustic sum rule
</PRE>
</UL>
<P><B>
Examples:
</B>
</P>
<PRE>
fix 1 all phonon 20 5000 200000 map.in LJ1D sysdim 1
fix 1 all phonon 20 5000 200000 map.in EAM3D
fix 1 all phonon 10 5000 500000 GAMMA EAM0D nasr 100
</PRE>
<P><B>
Description:
</B>
</P>
<P>
Calculate the dynamical matrix from molecular dynamics simulations
based on fluctuation-dissipation theory for a group of atoms.
</P>
<P>
Consider a crystal with
<I>
N
</I>
unit cells in three dimensions labelled
<I>
l
= (l
<sub>
1
</sub>
,l
<sub>
2
</sub>
,l
<sub>
3
</sub>
)
</I>
where
<I>
l
<sub>
i
</sub></I>
are integers. Each unit cell is defined by three linearly independent
vectors
<B>
a
</B><sub>
1
</sub>
,
<B>
a
</B><sub>
2
</sub>
,
<B>
a
</B><sub>
3
</sub>
forming a
parallelipiped, containing
<I>
K
</I>
basis atoms labelled
<I>
k
</I>
.
</P>
<P>
Based on fluctuation-dissipation theory, the force constant
coefficients of the system in reciprocal space are given by
(
<A
HREF =
"#Campana"
>
Campa
ñá
</A>
,
<A
HREF =
"#Kong"
>
Kong
</A>
)
<center><b>
Φ
</b><sub>
k
α
,k'
β
</sub>
(
<b>
q
</b>
) =
k
<sub>
B
</sub>
T
<b>
G
</b><sup>
-1
</sup><sub>
k
α
,k'
β
</sub>
(
<b>
q
</b>
),
</center>
</P>
<P>
where
<B>
G
</B>
is the Green's functions coefficients given by
</P>
<center><b>
G
</b><sub>
k
α
,k'
β
</sub>
(
<b>
q
</b>
) =
<
<b>
u
</b><sub>
k
α
</sub>
(
<b>
q
</b>
)
•
<b>
u
</b><sub>
k'
β
</sub><sup>
*
</sup>
(
<b>
q
</b>
)>,
</center>
<P>
where
<
...> denotes the ensemble average, and
<center><B>
u
</B><sub>
k
α
</sub>
(
<b>
q
</b>
) =
∑
<sub>
l
</sub>
<b>
u
</b><sub>
lk
α
</sub>
exp(i
<B>
qr
</B><sub>
l
</sub>
)
</center>
</P>
<P>
is the
α
component of the atomic displacement for the
<I>
k
</I>
th atom
in the unit cell in reciprocal space at
<B>
q
</B>
. In practice, the Green's
functions coefficients can also be measured according to the following
formula,
</P>
<center><b>
G
</b><sub>
k
α
,k'
β
</sub>
(
<b>
q
</b>
) =
<
<b>
R
</b><sub>
k
α
</sub>
(
<b>
q
</b>
)
•
<b>
R
</b><sup>
*
</sup><sub>
k'
β
</sub>
(
<b>
q
</b>
)>
-
<
<b>
R
</b>
>
<sub>
k
α
</sub>
(
<b>
q
</b>
)
•
<
<b>
R
</b>
>
<sup>
*
</sup><sub>
k'
β
</sub>
(
<b>
q
</b>
),
</center>
<P>
where
<B>
R
</B>
is the instantaneous positions of atoms, and
<
<B>
R
</B>
> is the
averaged atomic positions. It gives essentially the same results as
the displacement method and is easier to implement in an MD code.
</P>
<P>
Once the force constant matrix is known, the dynamical matrix
<B>
D
</B>
can
then be obtained by
</P>
<center><b>
D
</b><sub>
k
α
, k'
β
</sub>
(
<b>
q
</b>
) = (m
<sub>
k
</sub>
m
<sub>
k'
</sub>
)
<sup>
-1/2
</sup>
<b>
Φ
</b><sub>
k
α
,k'
β
</sub>
(
<b>
q
</b>
)
</center>
<P>
whose eigenvalues are exactly the phonon frequencies at
<B>
q
</B>
.
</P>
<P>
This fix uses positions of atoms in the specified group and calculates
two-point correlations. To achieve this. the positions of the atoms
are examined every
<I>
Nevery
</I>
steps and are Fourier-transformed into
reciprocal space, where the averaging process and correlation
computation is then done. After every
<I>
Noutput
</I>
measurements, the
matrix
<B>
G
</B>
(
<B>
q
</B>
) is calculated and inverted to obtain the elastic
stiffness coefficients. The dynamical matrices are then constructed
and written to
<I>
prefix
</I>
.bin.timestep files in binary format and to the
file
<I>
prefix
</I>
.log for each wavevector
<B>
q
</B>
.
</P>
<P>
A detailed description of this method can be found in
(
<A
HREF =
"#Kong2011"
>
Kong2011
</A>
).
</P>
<P>
The
<I>
sysdim
</I>
keyword is optional. If specified with a value smaller
than the dimensionality of the LAMMPS simulation, its value is used
for the dynamical matrix calculation. For example, using LAMMPS ot
model a 2D or 3D system, the phonon dispersion of a 1D atomic chain
can be computed using
<I>
sysdim
</I>
= 1.
</P>
<P>
The
<I>
nasr
</I>
keyword is optional. An iterative procedure is employed to
enforce the acoustic sum rule on
Φ
at
Γ
, and the number
provided by keyword
<I>
nasr
</I>
gives the total number of iterations. For a
system whose unit cell has only one atom,
<I>
nasr
</I>
= 1 is sufficient;
for other systems,
<I>
nasr
</I>
= 10 is typically sufficient.
</P>
<P>
The
<I>
map_file
</I>
contains the mapping information between the lattice
indices and the atom IDs, which tells the code which atom sits at
which lattice point; the lattice indices start from 0. An auxiliary
code,
<A
HREF =
"http://code.google.com/p/latgen"
>
latgen
</A>
, can be employed to
generate the compatible map file for various crystals.
</P>
<P>
In case one simulates an aperiodic system, where the whole simulation box
is treated as a unit cell, one can set
<I>
map_file
</I>
as
<I>
GAMMA
</I>
, so that the mapping
info will be generated internally and a file is not needed. In this case, the
dynamical matrix at only the gamma-point will/can be evaluated. Please keep in
mind that fix-phonon is designed for cyrstals, it will be inefficient and
even degrade the performance of lammps in case the unit cell is too large.
</P>
<P>
The calculated dynamical matrix elements are written out in
<A
HREF =
"units.html"
>
energy/distance^2/mass
</A>
units. The coordinates for
<I>
q
</I>
points in the log file is in the units of the basis vectors of the
corresponding reciprocal lattice.
</P>
<P><B>
Restart, fix_modify, output, run start/stop, minimize info:
</B>
</P>
<P>
No information about this fix is written to
<A
HREF =
"restart.html"
>
binary restart
files
</A>
.
</P>
<P>
The
<A
HREF =
"fix_modify.html"
>
fix_modify
</A>
<I>
temp
</I>
option is supported by this
fix. You can use it to change the temperature compute from thermo_temp
to the one that reflects the true temperature of atoms in the group.
</P>
<P>
No global scalar or vector or per-atom quantities are stored by this
fix for access by various
<A
HREF =
"Section_howto.html#4_15"
>
output commands
</A>
.
</P>
<P>
Instead, this fix outputs its initialization information (including
mapping information) and the calculated dynamical matrices to the file
<I>
prefix
</I>
.log, with the specified
<I>
prefix
</I>
. The dynamical matrices are
also written to files
<I>
prefix
</I>
.bin.timestep in binary format. These
can be read by the post-processing tool in tools/phonon to compute the
phonon density of states and/or phonon dispersion curves.
</P>
<P>
No parameter of this fix can be used with the
<I>
start/stop
</I>
keywords
of the
<A
HREF =
"run.html"
>
run
</A>
command.
</P>
<P>
This fix is not invoked during
<A
HREF =
"minimize.html"
>
energy minimization
</A>
.
</P>
<P><B>
Restrictions:
</B>
</P>
<P>
This fix assumes a crystalline system with periodical lattice. The
temperature of the system should not exceed the melting temperature to
keep the system in its solid state.
</P>
<P>
This fix is part of the USER-PHONON package. It is only enabled if
LAMMPS was built with that package. See the
<A
HREF =
"Section_start.html#start_3"
>
Making
LAMMPS
</A>
section for more info.
</P>
<P>
This fix requires LAMMPS be built with an FFT library. See the
<A
HREF =
"Section_start.html#start_2"
>
Making LAMMPS
</A>
section for more info.
</P>
<P><B>
Related commands:
</B>
</P>
<P><A
HREF =
"compute_msd.html"
>
compute msd
</A>
</P>
<P><B>
Default:
</B>
</P>
<P>
The option defaults are sysdim = the same dimemsion as specified by
the
<A
HREF =
"dimension"
>
dimension
</A>
command, and nasr = 20.
</P>
<HR>
<A
NAME =
"Campana"
></A>
<P><B>
(Campa
ñá
)
</B>
C. Campa
ñá
and
M. H. M
ü
ser,
<I>
Practical Green's function approach to the
simulation of elastic semi-infinite solids
</I>
,
<A
HREF =
"http://dx.doi.org/10.1103/PhysRevB.74.075420"
>
Phys. Rev. B [74],
075420 (2006)
</A>
</P>
<A
NAME =
"Kong"
></A>
<P><B>
(Kong)
</B>
L.T. Kong, G. Bartels, C. Campa
ñá
,
C. Denniston, and Martin H. M
ü
ser,
<I>
Implementation of Green's
function molecular dynamics: An extension to LAMMPS
</I>
,
<A
HREF =
"http://dx.doi.org/10.1016/j.cpc.2008.12.035"
>
Computer
Physics Communications [180](6):1004-1010
(2009).
</A>
</P>
<P>
L.T. Kong, C. Denniston, and Martin H. M
ü
ser,
<I>
An improved version of the Green's function molecular dynamics
method
</I>
,
<A
HREF =
"http://dx.doi.org/10.1016/j.cpc.2010.10.006"
>
Computer Physics Communications [182](2):540-541
(2011).
</A>
</P>
<A
NAME =
"Kong2011"
></A>
<P><B>
(Kong2011)
</B>
L.T. Kong,
<I>
Phonon dispersion measured directly from
molecular dynamics simulations
</I>
,
<A
HREF =
"http://dx.doi.org/10.1016/j.cpc.2011.04.019"
>
Computer Physics Communications
[182](10):2201-2207,
(2011).
</A>
</P>
</HTML>
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