Anisotropy induced vortex lattice rearrangement in CaKFe4As4

Abstract

The magnetic penetration depth anisotropy γλ=λc/λab (λab and λc are the in-plane and the out-of-plane components of the magnetic penetration depth) in a CaKFe4As4 single crystal sample (the critical temperature T c 35 K) was studied by means of muon-spin rotation (μSR). γλ is almost temperature independent for T 20 K (γλ 1.9) and it reaches 3.0 by approaching T c. The change of γλ induces the corresponding rearrangement of the flux line lattice (FLL), which is clearly detected via enhanced distortions of the FLL μSR response. Comparison of γλ with the anisotropy of the upper critical field (γH c2) studied in Phys. Rev B 94, 064501 (2016), reveals that γλ is systematically higher than γH c2 at low-temperatures and approaches γH c2 for T → T c. The anisotropic properties of λ are explained by the multi-gap nature of superconductivity in CaKFe4As4 and are caused by anisotropic contributions of various bands to the in-plane and the out-of-plane components of the superfluid density.