Antiferromagnetic Phase Transition in Four-Layered High-TcSuperconductors Ba2Ca3Cu4O8(FyO1-y)2withTc=55–102 K:63Cu- and19F-NMR Studies
Sunao Shimizu, Hidekazu Mukuda, Yoshio Kitaoka, Hijiri Kito, Yasuharu Kodama, Parasharam M. Shirage, Akira Iyo
2009
Journal of the Physical Society of Japan
We report on magnetic characteristics in four-layered high-T_c superconductors Ba_2Ca_3Cu_4O_8(F_yO_1-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 (N_h) and T_c from 55 K up to 102 K. The NMR measurements reveal that antiferromagnetic order, which can uniformly coexist with superconductivity, exists up to N_h = 0.15, which is somewhat smaller than N_h = 0.17 being the quantum critical point
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... (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 CuO_2 layers makes an interlayer magnetic coupling weaker.
doi:10.1143/jpsj.78.064705
fatcat:fds4u2jspnfyhm3h7pc6tgerpa