Phonon dispersion relation

From Micro and Nano Mechanics Group
Revision as of 05:21, 15 June 2012 by Yanmingw (talk | contribs)
Jump to navigation Jump to search

Phonon Dispersion Relation

Yanming Wang, Saad Bhamla and Wei Cai

May, 2012



METHODS

For a crystal lattice composed of a number of atoms bound by a specific potential, an equilibrium or minimum energy state can be reached by relaxing the structure. This is achieved using the conjugate gradient relaxation method in MD++. Once the local minimum is reached, a Taylor expansion is used around this state in terms of the atomic displacements which gives Equation 1

where is the potential function, is the coordinate of the atom, is the position of the $ith$ atom at emuilibrium and is a small displacement from the equilibrium position: .

In Equation 1, the linear terms in the Taylor expansion are at 0K with the minimum energy state and the higher order terms are neglected using the Harmonic approximation. The second derivative of the potential energy evaluated at the equilibrium position and is called the force constant matrix or the Hessian matrix and is obtained from MD++ using the calHessian function.