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Created: Tue, Sep 10, 04:35

fix_nve_dipole.cpp
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	/* ----------------------------------------------------------------------
	LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
	www.cs.sandia.gov/~sjplimp/lammps.html
	Steve Plimpton, sjplimp@sandia.gov, Sandia National Laboratories

	Copyright (2003) Sandia Corporation. Under the terms of Contract
	DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains
	certain rights in this software. This software is distributed under
	the GNU General Public License.

	See the README file in the top-level LAMMPS directory.
	------------------------------------------------------------------------- */

	#include "math.h"
	#include "string.h"
	#include "fix_nve_dipole.h"
	#include "atom.h"
	#include "force.h"
	#include "update.h"
	#include "respa.h"
	#include "error.h"

	using namespace LAMMPS_NS;

	// moment of inertia for a sphere

	#define INERTIA 0.4

	/* ---------------------------------------------------------------------- */

	FixNVEDipole::FixNVEDipole(LAMMPS lmp, int narg, char *arg) :
	Fix(lmp, narg, arg)
	{
	if (narg != 3) error->all("Illegal fix nve/dipole command");
	if (!atom->mu_flag \|\| !atom->omega_flag \|\|
	!atom->torque_flag \|\| atom->shape == NULL)
	error->all("Fix nve/dipole requires atom attributes "
	"mu, omega, torque, shape");
	inertia = new double[atom->ntypes+1];
	}

	/* ---------------------------------------------------------------------- */

	FixNVEDipole::~FixNVEDipole()
	{
	delete [] inertia;
	}

	/* ---------------------------------------------------------------------- */

	int FixNVEDipole::setmask()
	{
	int mask = 0;
	mask \|= INITIAL_INTEGRATE;
	mask \|= FINAL_INTEGRATE;
	mask \|= INITIAL_INTEGRATE_RESPA;
	mask \|= FINAL_INTEGRATE_RESPA;
	return mask;
	}

	/* ---------------------------------------------------------------------- */

	void FixNVEDipole::init()
	{
	dtv = update->dt;
	dtf = 0.5 * update->dt * force->ftm2v;

	if (strcmp(update->integrate_style,"respa") == 0)
	step_respa = ((Respa *) update->integrate)->step;

	// moment of inertia for each particle type

	double *mass = atom->mass;
	double **shape = atom->shape;

	for (int i = 1; i <= atom->ntypes; i++)
	inertia[i] = INERTIA * mass[i] * 0.25shape[i][0]shape[i][0];
	}

	/* ---------------------------------------------------------------------- */

	void FixNVEDipole::initial_integrate()
	{
	double dtfm,msq,scale;

	double **x = atom->x;
	double **v = atom->v;
	double **f = atom->f;
	double **mu = atom->mu;
	double **omega = atom->omega;
	double **torque = atom->torque;
	double *mass = atom->mass;
	double *dipole = atom->dipole;
	int *type = atom->type;
	int *mask = atom->mask;
	int nlocal = atom->nlocal;

	double g[3];

	// update v,x for all particles
	// update omega,mu for all dipoles
	// d_omega/dt = torque / inertia
	// d_mu/dt = omega cross mu
	// renormalize mu to dipole length

	for (int i = 0; i < nlocal; i++) {
	if (mask[i] & groupbit) {
	dtfm = dtf / mass[type[i]];
	v[i][0] += dtfm * f[i][0];
	v[i][1] += dtfm * f[i][1];
	v[i][2] += dtfm * f[i][2];
	x[i][0] += dtv * v[i][0];
	x[i][1] += dtv * v[i][1];
	x[i][2] += dtv * v[i][2];
	if (dipole[type[i]] > 0.0) {
	dtfm = dtf / inertia[type[i]];
	omega[i][0] += dtfm * torque[i][0];
	omega[i][1] += dtfm * torque[i][1];
	omega[i][2] += dtfm * torque[i][2];

	g[0] = mu[i][0] + dtv * (omega[i][1]mu[i][2] - omega[i][2]mu[i][1]);
	g[1] = mu[i][1] + dtv * (omega[i][2]mu[i][0] - omega[i][0]mu[i][2]);
	g[2] = mu[i][2] + dtv * (omega[i][0]mu[i][1] - omega[i][1]mu[i][0]);

	msq = g[0]g[0] + g[1]g[1] + g[2]*g[2];
	scale = dipole[type[i]]/sqrt(msq);
	mu[i][0] = g[0]*scale;
	mu[i][1] = g[1]*scale;
	mu[i][2] = g[2]*scale;
	}
	}
	}
	}

	/* ---------------------------------------------------------------------- */

	void FixNVEDipole::final_integrate()
	{
	double dtfm;

	double **v = atom->v;
	double **f = atom->f;
	double **omega = atom->omega;
	double **torque = atom->torque;
	double *mass = atom->mass;
	double *dipole = atom->dipole;
	int *type = atom->type;
	int *mask = atom->mask;
	int nlocal = atom->nlocal;

	// update v for all particles
	// update omega for all dipoles

	for (int i = 0; i < nlocal; i++) {
	if (mask[i] & groupbit) {
	dtfm = dtf / mass[type[i]];
	v[i][0] += dtfm * f[i][0];
	v[i][1] += dtfm * f[i][1];
	v[i][2] += dtfm * f[i][2];
	if (dipole[type[i]] > 0.0) {
	dtfm = dtf / inertia[type[i]];
	omega[i][0] += dtfm * torque[i][0];
	omega[i][1] += dtfm * torque[i][1];
	omega[i][2] += dtfm * torque[i][2];
	}
	}
	}
	}

	/* ---------------------------------------------------------------------- */

	void FixNVEDipole::initial_integrate_respa(int ilevel, int flag)
	{
	if (flag) return; // only used by NPT,NPH

	dtv = step_respa[ilevel];
	dtf = 0.5 * step_respa[ilevel] * force->ftm2v;

	if (ilevel == 0) initial_integrate();
	else final_integrate();
	}

	/* ---------------------------------------------------------------------- */

	void FixNVEDipole::final_integrate_respa(int ilevel)
	{
	dtf = 0.5 * step_respa[ilevel] * force->ftm2v;
	final_integrate();
	}

	/* ---------------------------------------------------------------------- */

	void FixNVEDipole::reset_dt()
	{
	dtv = update->dt;
	dtf = 0.5 * update->dt * force->ftm2v;
	}

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