Spin resonance peak in NaxCoO2· yH2O superconductors: A probe of the pairing symmetry
Abstract
Motivated by the recent discovery of superconductivity in layered NaxCoO2· yH2O compound, we investigate theoretically the spin dynamics in the superconducting state with three possible px+ipy-, d+id'-, and f-wave pairing symmetries in two-dimensional triangular lattices. We find that a spin resonance peak, which is elaborated to have a close relevance to the relative phase of the gap function and the geometry of the Fermi surface, appears in both in-plane and out-of-plane components of the spin susceptibility χ for the spin-singlet d+id'-wave pairing, while only in the out-of-plane(in-plane) component of χ for the spin-triplet px+ipy-wave (f-wave) pairing. Because the pairing symmetry in this compound is still hotly debated at present, this distinct feature may be used to probe or determine it unambiguously with future neutron scattering experiments.
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