Doping - dependent anisotropic superconducting gap in Na1-δ(Fe1-xCox)As

Abstract

The London penetration depth was measured in single crystals of self-doped Na1-δFeAs (from under - to optimal - doping, Tc from 14 to 27 K) and electron-doped Na(Fe1-xCox)As with x ranging from undoped, x=0 to overdoped x= 0.1. In all samples, the low - temperature variation of the penetration depth exhibits a power-law dependence, λ (T) = ATn, with the exponent that varies in a dome - like fashion from n 1.1 in the underdoped, reaching a maximum of n 1.9 in the optimally doped and decreasing again to n 1.3 on the overdoped side. While the anisotropy of the gap structure follows universal dome-like evolution, the exponent at the optimal doping, n 1.9, is lower than in other charge - doped Fe-based superconductors (FeSCs). The full - temperature range superfluid density, s(T) = (λ(0)/λ(T))2, at the optimal doping is also distinctly different from other charge - doped FeSCs but is similar to isovalently - substituted BaFe2(As1-xPx)2, believed to be a nodal pnictide at the optimal doping. These results suggest that the superconducting gap in Na(Fe1-xCox)As is highly anisotropic even at the optimal doping.