Doping evolution of the anisotropic upper critical fields in iron-based superconductor Ba1-xKxFe2As2

Abstract

In-plane resistivity measurements as a function of temperature and magnetic field up to 35~T with precise orientation within the crystallographic ac-plane were used to study the upper critical field, Hc2, of the hole-doped iron-based superconductor Ba1-xKxFe2As2. Compositions of the samples studied were spanning from underdoped x=0.17 (Tc=12~K) and x=0.22 (Tc=20~K), both in the coexistence range of stripe magnetism and superconductivity, though optimal doping x=0.39 (Tc=38.4~K), x=0.47 (Tc=37.2~K), to overdoped x=0.65 (Tc=22~K), x=0.83 (Tc=10~K). We find notable doping asymmetry of the shapes of the anisotropic Hc2(T) suggesting important role of paramagnetic limiting effects in H a configuration in overdoped compositions and multi-band effects in underdoped compositions.