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Created: Tue, Jun 4, 19:08

CbLjCut.h
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	#ifndef CBLJCUT_H
	#define CBLJCUT_H

	#include <iostream>
	#include <cstdlib>
	#include "CbPotential.h"
	namespace ATC
	{

	/**
	* @class CbLjCut
	* @brief Class for computing Cauchy-Born quantities for a Lennard-Jones/cut material
	* (A factor of one-half is already included to split the
	* bond energy between atoms)
	*/

	class CbLjCut : public CbPotential
	{
	public:
	//! Constructor - initializes coefficients and enables PAIRWISE term.
	CbLjCut(double eps, double sig, double cutoff_radius)
	: CbPotential(Interactions(PAIRWISE)),
	A (4.0epspow(sig, 12)),
	B (4.0epspow(sig, 6)),
	rcut(cutoff_radius)
	{ }

	//! Returns the cutoff readius of the LJ potential.
	double cutoff_radius() const { return rcut; }
	//! Returns the LJ energy between two interacting atoms (6,12).
	double phi(const double &r) const
	{
	const double r6i = 1.0/((rrr)(rr*r));
	return r6i(Ar6i - B);
	}
	//! Returns the first derivative of the LJ energy (7,13).
	double phi_r(const double &r) const
	{
	const double ri = 1.0/r;
	const double r6i = (ririri)(riri*ri);
	return r6iri(6.0B - 12.0A*r6i);
	}
	//! Returns the second derivative of the LJ energy (8,14).
	double phi_rr(const double &r) const
	{
	const double r2i = 1.0/(r*r);
	const double r6i = r2ir2ir2i;
	return r6ir2i(13.012.0Ar6i - 7.06.0*B);
	}
	//! Returns the third derivative of the LJ bond energy (9,15).
	double phi_rrr(const double &r) const
	{
	const double r3i = 1.0/(rrr);
	const double r9i = r3ir3ir3i;
	return r9i(8.07.06.0B - 14.013.012.0Ar3i*r3i);
	}

	const double A, B; //!< phi = Ar^-12 + Br^-6
	const double rcut; //!< cutoff force
	};
	}
	#endif

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