Abstract
The stationary functional of the density functional plus embedded dynamical mean field theory formalism to perform free energy calculations and structural relaxations is implemented for the first time. Here, the first order error in the density leads to a much smaller, second order error in the free energy. The method is applied to several well-known correlated materials: metallic , Mott insulating FeO, and elemental cerium, to show that it predicts the lattice constants with good accuracy. In cerium, we show that our method predicts the isostructural transition between the and phases, and resolve the long-standing controversy in the driving mechanism of this transition.
- Received 27 January 2015
DOI:https://doi.org/10.1103/PhysRevLett.115.256402
© 2015 American Physical Society