Effect of next-nearest neighbor hopping on the spin dynamics in antiferromagnets
Abstract
Recently, inelastic neutron scattering (INS) experiments on the insulating parent compounds of high-Tc materials were analyzed to extract the value of the superexchange constant J. Starting point of the analysis was the nearest-neighbor Heisenberg model. Motivated by recent ARPES experiments, we consider the effects of a next-nearest neighbor hopping, t' in the strong coupling limit of the spin-density wave formalism, where it leads to an antiferromagnetic exchange J'>0 between next-nearest neighbor spins. We show that a finite J' (a) changes the spin-wave velocity and thus the value of J extracted from the INS data, yielding almost identical values for J in La2CuO4 and YBa2Cu3O6.15, and (b) leads to a considerable change in the high-frequency spin-dynamics. Finally, we calculate the 1/S quantum corrections in the presence of J' and discuss their relevance for the INS data.
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