Fermi surface nesting induced strong pairing in iron-based superconductors

TL;DR

This paper demonstrates that Fermi surface nesting significantly influences superconducting pairing strength in iron-based superconductors, supporting the inter-FS pairing mechanism hypothesis.

Contribution

It reveals how Fermi surface nesting conditions switch with doping and directly affect pairing strength, providing new insights into the pairing mechanism in these materials.

Findings

Fermi surface nesting correlates with pairing strength.

Doping switches nesting from α to β Fermi surfaces.

Strong pairing occurs on nested Fermi surfaces.

Abstract

The discovery of high-temperature superconductivity in iron pnictides raised the possibility of an unconventional superconducting mechanism in multiband materials. The observation of Fermi-surface(FS)-dependent nodeless superconducting gaps suggested that inter-FS interactions may play a crucial role in superconducting pairing. In the optimally hole-doped Ba$_{0.6}$K$_{0.4}$Fe$_2$As$_2$, the pairing strength is enhanced simultaneously (2$\Delta$/Tc$\sim$7) on the nearly nested FS pockets, i.e. the inner holelike ($\alpha$) FS and the two hybridized electronlike FSs, while the pairing remains weak (2$\Delta$/Tc$\sim$3.6) in the poorly-nested outer hole-like ($\beta$) FS. Here we report that in the electron-doped BaFe$_{1.85}$Co$_{0.15}$As$_2$ the FS nesting condition switches from the $\alpha$ to the $\beta$ FS due to the opposite size changes for hole- and electron-like FSs upon electron doping. The strong pairing strength (2$\Delta$/Tc$\sim$6) is also found to switch to the nested $\beta$ FS, indicating an intimate connection between FS nesting and superconducting pairing, and strongly supporting the inter-FS pairing mechanism in the iron-based superconductors.