Antiferromagnetic phase transition in four-layered high-Tc superconductors Ba2Ca3Cu4O8(FyO1-y)2 with Tc=55-102 K: Cu- and F-NMR studies

Abstract

We report on magnetic characteristics in four-layered high-Tc superconductors Ba2Ca3Cu4O8(FyO1-y)2 with apical fluorine through Cu- and F-NMR measurements. The substitution of oxygen for fluorine at the apical site increases the carrier density (Nh) and Tc from 55 K up to 102 K. The NMR measurements reveal that antiferromagnetic order, which can uniformly coexist with superconductivity, exists up to Nh = 0.15, which is somewhat smaller than Nh = 0.17 being the quantum critical point (QCP) for five-layered compounds. The fact that the QCP for the four-layered compounds moves to a region of lower carrier density than for five-layered ones ensures that the decrease in the number of CuO2 layers makes an interlayer magnetic coupling weaker.