We have studied transition properties of YBa/sub 2/Cu/sub 3/O/sub 7/ step-edge junctions as a function of the angle of the step-line with respect to the major axes of the SrTiO/sub 3/ substrate. Substrate steps were prepared by Ar ion milling with photoresist mask, and the YBa/sub 2/Cu/sub 3/O/sub 7/ film was deposited by pulsed laser ablation and patterned by ion milling to form junctions. The critical temperature of the junctions was independent of the angle. However, the critical current of the junctions showed a modulation with the angle. A maximum was observed for the step-line oriented parallel to the major axes of the substrate and a minimum for the step-line oriented 45/spl deg/ against the axes. The modulation of the critical current is believed to be caused by the difference in the microscopic structure of the epitaxially grown YBa/sub 2/Cu/sub 3/O/sub 7/ film at the step and also symmetry of the high Tc superconductor.
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机译:我们已经研究了YBa / sub 2 / Cu / sub 3 / O / sub 7 /台阶边缘结的过渡特性,它是台阶线相对于SrTiO / sub 3 /衬底主轴的角度的函数。通过使用光刻胶掩模的Ar离子铣削制备衬底步骤,并通过脉冲激光烧蚀沉积YBa / sub 2 / Cu / sub 3 / O / sub 7 /膜,并通过离子铣削将其图案化以形成结。结的临界温度与角度无关。但是,结的临界电流显示出随角度的调制。平行于基板主轴定向的阶梯线观察到最大值,相对于轴线定向45 / spl deg /的阶梯线观察到最小值。认为临界电流的调制是由外延生长的YBa / sub 2 / Cu / sub 3 / O / sub 7 /膜的台阶处的微观结构的差异以及高Tc超导体的对称性引起的。
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