Theory for magnetic excitations in novel superconductors with Fe-based layered structure

Based on the effective four-band model we analyze the spin response in the normal and superconducting state of the novel Fe-pnictide superconductors. While the normal state spin excitations are dominated by the continuum of the interorbital antiferromagnetic fluctuations and the intraband spin density wave fluctuations, the unconventional superconductivity yields different feedback. The resonance peak in form of the well-defined spin exciton occurs only for the interband scattering at the antiferromagnetic momentum, QAF M , for the extended s-wave superconducting order parameter and it disappears rapidly for q < QAF M . The resonance feature is extremely weak for the dx2−y2 wave order parameter due to specific Fermi surface topology of these compounds. The essential difference between extended s-wave and dx2−y2 -wave symmetries for the magnetic excitations can be used for experimental determination of the superconducting wave function symmetry.