Structure and superconductivity in Y 1− xLn xBa 2− ySr yCu 4O 8 (Ln=Lu, Tb, Gd, Pr and Ce); the influence of ionic size and valency

Abstract

The structural changes occurring upon substitution of several lanthanides (Ln) for Y in the high- T c superconductor YBa 2Cu 4O 8 have been studied by neutron powder diffraction in order to establish the influence of the size and valency of the dopant ions. A series of Lu and Gd doped Y-124 samples was prepared and the phase stability determined. Simultaneous substitution of Sr for Ba was observed to increase substantially the content of Lu that could be introduced into the structure. The effects of varying the size and valency of the ion at the Y site were studied by partial substitution of Tb, Pr and Ce for Y. The bond length changes obtained in this study indicate that while Tb is trivalent, Ce is tetravalent and Pr may have an intermediate valency or take part in hybridization. Measurements of the superconducting transition temperature showed that T c decreases with increasing ionic radius and unit cell volume in the series of Lu and Gd doped Y-124 samples. A drastic depression of T c is observed for Ce doped Y-124 due to hole filling, that does not seem to be compensated by charge transfer from the double CuO chains.