The NMR of High Temperature Superconductors without Anti-Ferromagnetic Spin Fluctuations
Abstract
A microscopic theory for the NMR anomalies of the planar Cu and O sites in superconducting La1.85Sr0.15CuO4 is presented that quantitatively explains the observations without the need to invoke anit-ferromagnetic spin fluctuations on the planar Cu sites and its significant discrepancy with the observed incommensurate neutron spin fluctuations. The theory is derived from the recently published ab-initio band structure calculations that correct LDA computations tendency to overestimate the self-coulomb repulsion for the half-filled Cu dx2-y2 orbital for these ionic systems. The new band structure leads to two bands at the Fermi level with holes in the Cu dz2 and apical O pz orbitals in addition to the standard Cu dx2-y2 and planar O psigma orbitals. This band structure is part of a new theory for the cuprates that explains a broad range of experiments and is based upon the formation of Cooper pairs comprised of a k up spin electron from one band and a -k down spin electron from another band (Interband Pairing Model).
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