Friday, May 11, 2012

1108.1806 (Subhro Bhattacharjee et al.)

Spin-Orbital Locking, Emergent Pseudo-Spin, and Magnetic order in
Honeycomb Lattice Iridates
   [PDF]

Subhro Bhattacharjee, Sung-Sik Lee, Yong Baek Kim
The nature of the effective spin Hamiltonian and magnetic order in the honeycomb iridates is explored by considering a trigonal crystal field effect and spin-orbit coupling. Starting from a Hubbard model, an effective spin Hamiltonian is derived in terms of an emergent pseudo-spin-1/2 moment in the limit of large trigonal distortions and spin-orbit coupling. The present pseudo-spins arise from a spin-orbital locking and are different from the jeff = 1/2 moments that are obtained when the spin-orbit coupling dominates and trigonal distortions are neglected. The resulting spin Hamiltonian is anisotropic and frustrated by further neighbour interactions. Mean field theory suggests a ground state with 4-sublattice zig-zag magnetic order in a parameter regime that can be relevant to the honeycomb iridate compound Na2IrO3, where similar magnetic ground state has recently been observed. Various properties of the phase, the spin-wave spectrum and experimental consequences are discussed. The present approach contrasts with the recent proposals to understand iridate compounds starting from the strong spin-orbit coupling limit and neglecting non-cubic lattice distortions.
View original: http://arxiv.org/abs/1108.1806

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