Abstract
The YBa2Cu3O7−x/LaAlO3/YBa2Cu3O7−x (YBCO/LAO/YBCO) heterogeneous trilayer film structures were prepared on the LaAlO3 (001) single-crystal substrate via the sol-gel method. The characteristics of the phase, orientation, and superconducting properties were studied via an X-ray diffractometer and a comprehensive physical property measurement system. The results show that when the LAO layer was thin (<40 nm), the trilayer films were relatively pure and had a high c-axis orientation. When the nominal thickness of the LAO layer increased to 70 nm, non-c-axis oriented grains started to appear in the trilayer film. In this case, the top and bottom YBCO layers exhibited superconducting properties, and the resistance was found to be zero at 80.1 and 72.5 K, respectively. In addition, for the YBCO/LAO (40 nm)/YBCO structure, the intermediate LAO layer was too thin to completely cover the surface of the underlying YBCO. This resulted in point contact and micro-bridge contact in several micro-regions, thus forming a weak connection and exhibiting a current-voltage (I–V) characteristic similar to the direct-current (DC) Josephson effect. On the other hand, for the YBCO/LAO (70 nm)/YBCO structure, the thicker LAO layer could completely cover the underlying YBCO surface, which could isolate the superconducting current between the YBCO layers.
Highlights
IntroductionYBa2Cu3O7−x (YBCO) films have broad application prospects in the field of superconducting electronics
YBa2Cu3O7−x (YBCO) films have broad application prospects in the field of superconducting electronics.High-quality single-layer YBCO films can already be used to prepare planar resonators, transmission lines, and filters
Trilayer structures of YBCO/LAO/YBCO were prepared via the sol-gel method, and their magnetic properties were characterized
Summary
YBa2Cu3O7−x (YBCO) films have broad application prospects in the field of superconducting electronics. Wang and Wu studied the relationship between Jc and the thickness of the YBCO/CeO2 /YBCO trilayer film grown via pulsed laser deposition. The cell parameters of LAO are smaller than those of YBCO in both a and b directions, which causes YBCO to suffer compressive stress in the a—b plane This circumstance is conducive to improve the superconducting transition temperature (Tc ) of the YBCO film [14,15]. Trilayer structures of YBCO/LAO/YBCO were prepared via the sol-gel method, and their magnetic properties were characterized. The electrical properties of the YBCO/LAO/YBCO trilayer structure are further analyzed, focusing on the modulation of the critical temperature Tc and of the critical current Ic by adjusting the thickness of the LAO middle layer
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