Abstract
We use quantum Monte Carlo simulations to calculate the magnetic and pairing correlations of two-dimensional Hubbard sheets coupled by an interlayer hopping ${\mathit{t}}_{\mathrm{\ensuremath{\perp}}}$. We find that large ${\mathit{t}}_{\mathrm{\ensuremath{\perp}}}$ reduces in-plane magnetic correlations despite the increased lattice coordination, and also see evidence for a crossover to a spin-liquid phase where there is no long-range magnetic order in the ground state. Superconducting correlations are reduced by the interlayer coupling at the temperatures accessible to the simulations.
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