Strong Pauli paramagnetic effect in the upper critical field of KCa2Fe4As4F2

Abstract

Recently, 12442 system of Fe-based superconductors has attracted considerable attention owing to its unique double-FeAs-layer structure. A steep increase in the in-plane upper critical field with cooling has been observed near the superconducting transition temperature, Tc, in KCa2Fe4As4F2 single crystals. Herein, we report a high-field investigation on upper critical field of this material over a wide temperature range, and both out-of-plane (H\|c, Hc2c) and in-plane (H\|ab, Hc2ab) directions have been measured. A sublinear temperature-dependent behavior is observed for the out-of-plane Hc2c, whereas strong convex curvature with cooling is observed for the in-plane Hc2ab. Such behaviors could not be described by the conventional Werthamer--Helfand--Hohenberg (WHH) model. The data analysis based on the WHH model by considering the spin aspects reveals a large Maki parameter α=9, indicating that the in-plane upper critical field is affected by a very strong Pauli paramagnetic effect.