Spinons, Solitons and Magnons in One-dimensional Heisenberg-Ising Antiferromagnets

Abstract

We calculate the excitation spectra for the one-d Heisenberg-Ising antiferromagnets by expansions around the Ising limit. For S=1/2, the calculated expansion coefficients for the spinon-spectra agree term by term with the solution of Johnson and McCoy. For S=1, the solitons become gapless before the Heisenberg limit is reached, signalling a transition to the Haldane phase. By applying a staggered field we calculate the one-magnon spectra for the S=1 Heisenberg chain. For S=3/2 the quantum renormalization of the spin-wave spectra is calculated to be approximately 1.16.

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