Spin Gaps in Coupled t-J Ladders

Abstract

Spin gaps in coupled t-J ladders are investigated by exact diagonalization of small clusters up to 4×8 sites. At half-filling, the numerical results for the triplet excitation spectrum are in very good agreement with a second order perturbation expansion in term of small inter-ladder and intra-ladder exchange couplings between rungs (J/J<0.25). The band of local triplet excitations moving coherently along the ladder (with momenta close to π) is split by the inter-ladder coupling. For intermediate couplings finite size scaling is used to estimate the spin gap. In the isotropic infinite 4-chain system (two coupled ladders) we find a spin gap of 0.245 J, roughly half of the single ladder spin gap. When the system is hole doped, bonding and anti-bonding bound pairs of holes can propagate coherently along the chains and the spin gap remains finite.

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