Sr₂RuO₄ Josephson junctions built in epitaxial films

A layered-perovskite superconductor Sr₂RuO₄ has attracted continuing interest as a leading candidate with chiral p-wave symmetry, which is one of topological superconductors potentially hosting Majorana fermions. For further investigation and possible applications of the unique state, the use of Sr₂RuO₄ thin films for junctions has been increasingly demanded. While growth of the superconducting Sr₂RuO₄ films had been extremely difficult over the past decades [1,2], the reproducible and controllable growth has been recently achieved by refining molecular beam epitaxy techniques [3]. In this talk, we report fundamental superconducting properties of Sr₂RuO₄ thin films and also Josephson junctions as revealed by systematic ultralow-temperature transport measurement. The Sr₂RuO₄-Sr₂RuO₄ Josephson junctions built in the epitaxial films have some advantages in investigating the possible multicomponent order parameter. The observed I_cR_n product is as high as 2 μeV and its temperature dependence shows clear deviations from the conventional Ambegaokar-Baratov model.

[1] Y. Krockenberger et al., Appl. Phys. Lett. 97, 082502 (2010).
[2] J. Cao et al., Supercond. Sci. Technol. 29, 095005 (2016).
[3] M. Uchida et al., APL Mater. 5, 106108 (2017).