Impurity-Induced Electronic Nematic State in Iron-Pnictide Superconductors

Abstract

We propose that impurity-induced electronic nematic state is realized above the orthorhombic structure transition temperature TS in iron-pnictide superconductors. In the presence of strong orbital fluctuations near TS, it is theoretically revealed that a single impurity induces non-local orbital order with C2-symmetry, consistently with recent STM/STS measurements. Each impurity-induced C2 orbital order aligns along a-axis by applying tiny uniaxial pressure along b-axis. In this impurity-induced nematic phase, the resistivity shows sizable in-plane anisotropy (b/a 2) even above TS, actually observed in various "detwinned" samples. The present study indicates the existence of strong orbital fluctuations in iron-pnictide superconductors.