Reproducible Growth of Superconducting Sr₂RuO₄ Films by Molecular-Beam Epitaxy

The unconventional, likely chiral p-wave, superconductivity in Sr₂RuO₄ has been studied extensively in bulk single crystals since its discovery over 20 years ago. The superconducting state in Sr₂RuO₄ is extremely sensitive to defects and non-magnetic impurities, and therefore superconductivity has only been observed in very pure crystals with a midpoint T_c of up to ~1.5 K [1]. Thin films of Sr₂RuO₄ have only recently been realized, and this advancement is important for both the study of the unconventional superconducting properties and for the implementation of Sr₂RuO₄ in any future practical applications. In this talk, we report a thermodynamic growth window, in which we can reproducibly grow superconducting Sr₂RuO₄ thin films by molecular-beam epitaxy with transition temperatures of up to 1.8 K on (110) NdGaO₃ substrates [2].
1) T. Akima, S. Nishizaki, and Y. Maeno, J. Phys. Soc. Jpn. 68, 694 (1999).
2) H.P. Nair, J.P. Ruf, N.J. Schreiber, L. Miao, M.L. Grandon, D.J. Baek, B.H. Goodge, J.P.C. Ruff, L.F. Kourkoutis, K.M. Shen, and D.G. Schlom, “Demystifying the Growth of Superconducting Sr₂RuO₄ Thin Films,” APL Mater. (in press, 2018).