Probing chiral superconductivity in Sr2RuO4 underneath the surface by point contact measurements

Abstract

Sr2RuO4 (SRO) is the prime candidate for chiral p-wave superconductor with critical temperature Tc(SRO)1.5 K. Chiral domains with opposite chiralities px ipy were proposed, but yet to be confirmed. We measure the field dependence of the point contact (PC) resistance between a tungsten tip and the SRO-Ru eutectic crystal, where micrometer-sized Ru inclusions are embedded in SRO with atomic sharp interface. Ruthenium is an s-wave superconductor with Tc(Ru)0.5 K, flux pinned near the Ru inclusions can suppress its superconductivity as reflected from the PC resistance and spectra. This flux pinning effect is originated from SRO underneath the surface and is very strong. To fully remove it, one has to thermal cycle the sample above Tc(SRO). This resembles the thermal demagnetization for a ferromagnet, where ferromagnetic domains are randomized above its Curie temperature. Another way is by applying alternating fields with decreasing amplitude, resembling field demagnetization for the ferromagnet. The observed hysteresis in magnetoresistance can be explained by domain dynamics, providing support for the existence of chiral domains. The origin of strong pinning underneath the surface is also discussed.