Evidence for a Nodeless Gap from the Superfluid Density of Optimally Doped Pr1.855Ce0.145CuO4-y Films
Abstract
We present measurements of the ab-plane magnetic penetration depth, λ(T), in five optimally doped Pr1.855Ce0.145CuO4-y films for 1.6 K ≤ T ≤ Tc 24 K. Low resistivities, high superfluid densities ns(T) λ-2(T), high Tc's, and small transition widths are reproducible and indicative of excellent film quality. For all five films, λ-2(T)/λ-2(0) at low T is well fitted by an exponential temperature dependence with a gap, min, of 0.85 kB Tc. This behavior is consistent with a nodeless gap and is incompatible with d-wave superconductivity.
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