On the Bilayer Coupling in the Yttrium-Barium Family of High Temperature Superconductors
Abstract
We present and solve a model for the susceptibility of two CuO2 planes coupled by an interplane coupling Jperp and use the results to analyze a recent "cross-relaxation" NMR experiment on Y2Ba4Cu7O15. We deduce that in this material the product of Jperp and the maximum value of the in-plane susceptibility chimax varies from approximately 0.2 at T = 200 K to 0.4 at T = 120 K and that this implies the existence of a temperature dependent in-plane spin correlation length. Using estimates of chimax from the literature we find 5 meV < Jperp < 20 meV. We discuss the relation of the NMR results to neutron scattering results which have been claimed to imply that in YBa2Cu3O6+x the two planes of a bilayer are perfectly anticorrelated. We also propose that the recently observed 41 meV excitation in YBa2Cu3O7 is an exciton pulled down below the superconducting gap by Jperp.
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