Growth and Characterization of Large REBa₂Cu₃O_y(RE=Y, Yb) Crystalline Films by Liquid Phase Epitaxy Process

Abstract

Growth conditions for liquid phase epitaxy (LPE) growth were investigated in order to grow a large REBa₂Cu₃O_y(REBCO, RE=Y, Yb) film with high quality. Both a thermal stability of the seed film and an appropriate supersaturation to avoid any undesired nucleation should be maintained to grow a high quality film. Especially in the case of growing a large film, it was suggested that the peritectic temperature (T_p) of a grown crystal should be lower than that of the seed film to satisfy the above requirements. We selected a (Y, Yb)BCO mixed crystal system to grow from the YBCO seed film, since the Y_1−xYb_xBa₂Cu₃O_y system is a homogeneous solid solution, and the T_p decreases with increasing the x value. A large LPE film of 2-inch in diameter was successfully grown. The composition of the film grown in this work was confirmed to be Y_0.86Yb_0.14Ba₂Cu₃O_y. The growth rate distribution along the lateral direction of the film was observed, which was enhanced with increasing the rotation rate during the growth. This phenomenon could be explained by the heat flux from the hot region in the liquid due to the forced convection, which might be stronger for the case of rotating a large substrate. The grown film had both a high crystallinity and its high in-plane uniformity. The films also exhibited excellent superconducting properties with a critical temperature of 92 K and a critical current density of over 10⁹ A/m² at 77 K in 0 T. These characteristics satisfy the requirements for the substrate of the future superconducting devices.