High-Spin to Low-Spin and Orbital Polarization Transitions in Multiorbital Mott Systems
- 19 September 2007
- journal article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 99 (12) , 126405
- https://doi.org/10.1103/physrevlett.99.126405
Abstract
We study the interplay of crystal field splitting and Hund coupling in a two-orbital model which captures the essential physics of systems with two electrons or holes in the e(g) shell. We use single site dynamical mean field theory with a recently developed impurity solver, which is able to access strong couplings and low temperatures. The fillings of the orbitals and the location of phase boundaries are computed as a function of Coulomb repulsion, exchange coupling, and crystal field splitting. We find that the Hund coupling can drive the system into a novel Mott insulating phase with vanishing orbital susceptibility. Away from half-filling, the crystal field splitting can induce an orbital selective Mott state.Keywords
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