Symmetry breaking in vanadium trihalides
Abstract
In the light of new experimental evidence we study the insulating ground state of the 3d2-transition metal trihalides VX3 (X=Cl, I). Based on Density Functional Theory with the Hubbard correction (DFT+U) we systematically show how these systems host multiple metastable states characterized by different orbital ordering and electronic behaviour. Our calculations reveal the importance of imposing a precondition in the on site d density matrix and of considering a symmetry broken unit cell to correctly take into account the correlation effects in a mean field framework. Furthermore we ultimately found a ground state with the a1g orbital occupied in a distorted VX6 octahedra driven by an optical phonon mode.
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