Magnetism and Pairing in Hubbard Bilayers.
Abstract
We study the Hubbard model on a bilayer with repulsive on-site interactions, U, in which fermions undergo both intra-plane (t) and inter-plane (tz) hopping. This situation is what one would expect in high-temperature superconductors such as YBCO, with two adjacent CuO2 planes. Magnetic and pairing properties of the system are investigated through Quantum Monte Carlo simulations for both half- and quarter-filled bands. We find that in all cases inter-planar pairing with dx2-z2 symmetry is dominant over planar pairing with dx2-y2 symmetry, and that for tz large enough pair formation is possible through antiferromagnetic correlations. However, another mechanism is needed to make these pairs condense into a superconducting state at lower temperatures. We identify the temperature for pair formation with the spin gap crossover temperature. [Submitted to Phys. Rev. B]
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