Quasiparticle states around a nonmagnetic impurity in electron-doped iron-based superconductors with spin-density-wave orderReportar como inadecuado



 Quasiparticle states around a nonmagnetic impurity in electron-doped iron-based superconductors with spin-density-wave order


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The quasiparticle states around a nonmagnetic impurity in electron-doped iron-based superconductors with spin-density-wave SDW order are investigated as a function of doping and impurity scattering strength. In the undoped sample, where a pure SDW state exists, two impurity-induced resonance peaks are observed around the impurity site and they are shifted to higher lower energies as the strength of the positive negative scattering potential SP is increased. For the doped samples where the SDW order and the superconducting order coexist, the main feature is the existence of sharp in-gap resonance peaks whose positions and intensity depend on the strength of the SP and the doping concentration. In all cases, the local density of states exhibits clear $C 2$ symmetry. We also note that in the doped cases, the impurity will divide the system into two sublattices with distinct values of magnetic order. Here we use the band structure of a two-orbital model, which considers the asymmetry of the As atoms above and below the Fe-Fe plane. This model is suitable to study the properties of the surface layers in the iron-pnictides and should be more appropriate to describe the scanning tunneling microscopy experiments.



Autor: Tao Zhou; Huaixiang Huang; Yi Gao; Jian-Xin Zhu; C. S. Ting

Fuente: https://archive.org/







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