Spatially Resolved Nonlinearity Measurements of YBa2Cu3O7-d Bi-crystal Grain Boundaries

Abstract

We have developed a near-field microwave microscope to locally excite a superconducting film and measure second and third harmonic responses at microwave frequencies. We study the local nonlinear response of a YBa2Cu3O7-d thin film grown on a bi-crystal SrTiO3 substrate. The location of the bi-crystal grain boundary is clearly identified by the microscope through higher harmonic response, and the spatial resolution is on the order of the magnetic loop probe size, about 500μ m. The harmonic power and spatial resolution are successfully modeled with a one-dimensional extended Josephson junction simulation. From the model, the 2nd order harmonic response is dominated by Josephson vortex generation and flow. A geometry-free nonlinear scaling current density JNL 104 105 A/cm2 is also exstracted from the data, indicating that the grain boundary weak link is the dominant nonlinear source in this case.

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