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Squaring the Triangle: Insulating Ground State of $Na_{0.5}CoO_{2}$

arXiv:cond-mat/0502164 · doi:10.1103/PhysRevB.75.073103

Abstract

We demonstrate that at a filling of $n=1.5$, an hexatic insulating state obtains in the extended Hubbard model on a triangular lattice. Composed of two tetragonal sublattices with fillings of $n=1$ and $n=2$, the insulating state is charge ordered and possesses an antiferromagnetic superlattice with dimension $a\times\sqrt{3}$. Two distinct energy scales arise in our model, a charge gap for the insulator and the effective exchange interaction in the antiferromagnet. Our model is capable of explaining both qualitatively and quantitatively the Hall coefficient including the sign change, the temperature dependence of the resistivity and the persistence of antiferromagnetism above the insulating state.

4.1 pages, 2 figures: The published version contains an explicit calculation of the dc resistivity as well as the Hall coefficient, both of which are compared with experiment