Ground state properties and dynamics of the bilayer t-J model
Abstract
We present an exact diagonalization study of bilayer clusters of t-J model. Our results indicate a crossover between two markedly different regimes which occurs when the ratio Jperp/J between inter-layer and intra-layer exchange constants increases: for small Jperp/J the data suggest the development of 3D antiferromagnetic correlations without appreciable degradation of the intra-layer spin order and the d(x2-y2) hole pairs within the planes persist. For larger values of Jperp/J local singlets along the inter-layer bonds dominate, leading to an almost complete suppression of the intra-layer spin correlation and the breaking of the intra-layer pairs. The ground state with two holes in this regime has s-like symmetry. The data suggest that the crossover may occur for values of Jperp/J as small as 0.2. We present data for static spin correlations, spin gap, and electron momentum distribution and spectral function of the `inter-layer RVB state' realized for large Jperp/J. The latter deviates from the single layer ground state, making it an implausible candidate for modelling high-temperature superconductors.
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