Effect of equatorial line nodes on upper critical field and London penetration depth

Abstract

The upper critical field Hc2 and its anisotropy are calculated for order parameters with line nodes at equators, kz=0, of the Fermi surface of uniaxial superconductors. It is shown that characteristic features found in Fe-based materials -- a nearly linear Hc2(T) in a broad T domain, a low and increasing on warming anisotropy γH= Hc2,ab/ Hc2,c\, -- can be caused by competing effects of the equatorial nodes and of the Fermi surface anisotropy. For certain material parameters, γH(T)-1 may change sign on warming in agreement with recorded behavior of FeTeS system. It is also shown that the anisotropy of the penetration depth γλ= λc/λab decreases on warming to reach γH at Tc in agreement with data available. For some materials γλ(T) may change on warming from γλ>1 at low Ts to γλ<1 at high Ts.