Jahn-Teller mechanism of stripe formation in doped layered La$_{2-x}$Sr$_x$NiO$_4$ nickelates (1112.3445v1)

Abstract: We introduce an effective model for $e_g$ electrons to describe quasi-two-dimensional layered La${2-x}$Sr${x}$NiO$_4$ nickelates and study it using correlated wave functions on $8 \times 8 $ and $6 \times 6 $ clusters. The effective Hamiltonian includes the kinetic energy, on-site Coulomb interactions for $e_g$ electrons (intraorbital $U$ and Hund's exchange $J_H$) and the coupling between $e_g$ electrons and Jahn-Teller distortions (static modes). The experimental ground state phases with inhomogeneous charge, spin and orbital order at the dopings $x=1/3$ and $x=1/2$ are reproduced very well by the model. Although the Jahn-Teller distortions are weak, we show that they play a crucial role and stabilize the observed cooperative charge, magnetic and orbital order in form of a diagonal stripe phase at $x=1/3$ doping and a checkerboard phase at $x=1/2$ doping.