Weak ferromagnetism and spiral spin structures in honeycomb Hubbard planes
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Journal of Physics: Condensed Matter
Abstract
Within the Hartree Fock RPA analysis, we derive the spin wave spectrum
for the weak ferromagnetic phase of the Hubbard model on a honeycomb
lattice. Assuming a uniform magnetization, the polar (optical) and acoustic
branches of the spin wave excitations are determined. The bipartite lattice
geometry produces a q-dependent phase difference between the spin wave
amplitudes on the two sub-lattices. We also find an instability of the uniform
weakly magnetized configuration towards a weak antiferromagnetic spiraling
spin structure, in the lattice plane, with wavevector Q along the –K direction,
for electron densities n > 0.6. We discuss the effect of diagonal disorder
on both the creation of electron bound states and the enhancement of the
density of states, and the possible relevance of these effects to disorder-induced ferromagnetism, as observed in proton-irradiated graphite.
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Journal of Physics: Condensed Matter 18, 1769 (2006)