Semiclassical description of spin ladders
Abstract
The Heisenberg spin ladder is studied in the semiclassical limit, via a mapping to the nonlinear σ model. Different treatments are needed if the inter-chain coupling K is small, intermediate or large. For intermediate coupling a single nonlinear σ model is used for the ladder. Its predicts a spin gap for all nonzero values of K if the sum s+ s of the spins of the two chains is an integer, and no gap otherwise. For small K, a better treatment proceeds by coupling two nonlinear sigma models, one for each chain. For integer s= s, the saddle-point approximation predicts a sharp drop in the gap as K increases from zero. A Monte-Carlo simulation of a spin 1 ladder is presented which supports the analytical results.
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