N\'eel and disordered phases of coupled Heisenberg chains with S=1/2 to S=4
Abstract
We use the two-step density-matrix renormalization group method to study the effects of frustration in Heisenberg models for S=1/2 to S=4 in a two-dimensional anisotropic lattice. We find that as in S=1/2 studied previously, the system is made of nearly disconnected chains at the maximally frustrated point, Jd/J=0.5, i.e., the transverse spin-spin correlations decay exponentially. This leads to the following consequences: (i) all half-integer spins systems are gapless, behaving like a sliding Luttinger liquid as in S=1/2; (ii) for integer spins, there is an intermediate disordered phase with a spin gap, with the width of the disordered state is roughly proportional to the 1D Haldane gap.
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