Pseudogap and Strong Pairing Induced by Incipient and Shallow Bands in the Quasi-Two-Dimensional KCa2Fe4As4F2

Abstract

The optical properties of KCa2Fe4As4F2 (K12442, Tc = 33.5~K) and KCa2(Fe0.95Ni0.05)4As4F2 (Ni-K12442, Tc = 29~K) have been examined at a large number of temperatures. For both samples, a nodeless superconducting gap is clearly observed in the optical conductivity at 5~K. The superconducting gap 8.7~meV (2/kBTc 6.03) in K12442, pointing towards strong-coupling Cooper pairs, but in sharp contrast, 4.6~meV (2/kBTc 3.68) in Ni-K12442, which agrees with the BCS weak-coupling pairing state. More intriguingly, below T 75~K, the optical conductivity of K12442 reveals a pseudogap that smoothly evolves into the superconducting gap below Tc, while no such behavior is detected in the electron-doped Ni-K12442. The comparison between the two samples hints that the pseudogap and strong-coupling Cooper pairs in K12442 may be intimately related to the shallow and incipient bands. We provide arguments supporting a preformed pairing mechanism of the pseudogap, but at the moment a magnetic scenario can not yet be excluded.