Upper critical fields of the 3-k superconducting phase of Sr2RuO4

We have investigated the normal-state and superconducting properties of the 3-K superconducting phase of Sr2RuO4 with the enhanced transition temperat ure T-c by lamellae of ruthenium metal. In contrast to the dimensional cros sover in the metallic conduction in pure Sr2RuO4 with T-c = 1.5 K, the 3-K phase retains metallic interlayer conduction at least up to 300 K. We attri bute this behavior to the interlayer metallic paths through the Ru lamellae , connected by in-plane current paths. For the superconducting properties, the phase diagram of the anisotropic upper critical fields H-c2(T) indicate s that H-c2//ab is strongly suppressed in the low-temperature region. The m easurements of the out-of-plane resistivity rho(c) under magnetic fields sh ow that the finite residual resistivity recovers above H-c2(T) of pure Sr2R uO4. This result confirms the spatial coexistence of the enhanced supercond uctivity with the T-c = 1.5-K region in the 3-K superconductor. In addition , we have also observed hysteresis in rho(c), which appear only in the 3-K phase at low temperatures and in high fields parallel to the RuO2 plane.