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Paper detail

Interplay between Lattice Distortion and Spin-Orbit Coupling in Double Perovskites

We develop anisotropic pseudo-spin antiferromagnetic Heisenberg models for monoclinically distorted double perovskites. We focus on these A$_2$BB'O$_6$ materials that have magnetic moments on the 4d or 5d transition metal B' ions, which form a face-centered cubic lattice. In these models, we consider local z-axis distortion of B'-O octahedra, affecting relative occupancy of $t_{2g}$ orbitals, along with geometric effects of the monoclinic distortion, and spin-orbit coupling. The resulting pseudo-spin-1/2 models are solved in the saddle-point limit of the Sp(N) generalization of the Heisenberg model. The spin S in the SU(2) case generalizes as a parameter $κ$ controlling quantum fluctuation in the Sp(N) case. We consider two different models that may be appropriate for these systems. In particular, using Heisenberg exchange parameters for La$_2$LiMoO$_6$ from a spin-dimer calculation, we conclude that this pseudo-spin-1/2 system may order, but must be very close to a disordered spin liquid state.

preprint2011arXivOpen access
Tyler DoddsTing-Pong ChoyYong Baek Kim
cond-mat.str-el
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Tyler DoddsTing-Pong ChoyYong Baek Kim

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