Phonons from density-functional-perturbation theory

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Density-functional-perturbation theory provides a way to compute the second-order linear response to ionic displacement, strain, and electric fields. The equations are derived as follows.

In density-functional theory, we solve the Kohn-Sham (KS) equations

where ... (MTH: please define all quantities.)

Taking the derivative with respect to the ionic positions , we obtain the Sternheimer equations

Once the derivative of the KS orbitals is computed from the Sternheimer equations, we can write

The second-order response to ionic displacement, i.e., the force constants or Hessian matrix, are then computed using

where yields the forces for a given set of KS orbitals.

MTH: Here, it would be good to explicitly write the eigenvalue equation that is solved to obtain phonon frequencies.


References