Tuesday, March 13, 2012

1203.2598 (Kingshuk Majumdar et al.)

Effects of ring exchange interaction on the Neel phase of
two-dimensional, spatially anisotropic, frustrated Heisenberg quantum
antiferromagnet
   [PDF]

Kingshuk Majumdar, Douglas Furton, Goetz S. Uhrig
Higher order quantum effects on the magnetic phase diagram induced by four-spin ring exchange on plaquettes are investigated for a two-dimensional quantum antiferromagnet with S=1/2. Spatial anisotropy and frustration are allowed for. Using a perturbative spin-wave expansion up to second order in 1/S we obtain the spin-wave energy dispersion, sublattice magnetization, and the magnetic phase diagram. We find that for substantial four-spin ring exchange the quantum fluctuations are stronger than in the standard Heisenberg model. A moderate amount of four-spin ring exchange couplings stabilizes the ordered antiferromagnetic Neel state while a large amount renders it unstable. Comparison with inelastic neutron scattering data points toward a moderate ring exchange coupling of 27% to 29% of the nearest-neighbor exchange coupling.
View original: http://arxiv.org/abs/1203.2598

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