Magnetization Losses in Multiply Connected YBa2Cu3O6+x Coated Conductors

TL;DR

This study investigates magnetization losses in multiply connected YBa2Cu3O6+x coated superconductors with a focus on how superconducting bridges affect losses, revealing a balance between connectivity and loss reduction for AC power applications.

Contribution

It demonstrates that superconducting bridges can be added to striated conductors without significantly increasing magnetization losses, aiding design for AC applications.

Findings

Superconducting bridges do not substantially increase losses when few are used.

Losses are manageable with a reasonable number of bridges.

Connectivity can be optimized without greatly increasing magnetization losses.

Abstract

We report the results of a magnetization losses study in experimental multifilament, multiply connected coated superconductors exposed to time-varying magnetic field. In these samples, the superconducting layer is divided into parallel stripes segregated by non-superconducting grooves. In order to facilitate the current sharing between the stripes and thus increase the reliability of the striated conductors, a sparse network of superconducting bridges is superimposed on the striated film. We find that the presence of the bridges does not substantially increase the magnetization losses, both hysteresis and coupling, as long as the number of bridges per length of the sample is not large. These results indicate that it is possible to find a reasonable compromise between the competing requirements of connectivity and loss reduction in an ac-tolerant version of the high temperature coated conductors specifically designed for ac power applications.