Superconducting gap and pair breaking in CeRu2 studied by point contacts
Abstract
The superconducting gap in a CeRu2 single crystal is investigated by point contacts. BCS-like behavior of the gap in the temperature range below Tc*<Tc, where Tc is the critical temperature, is established, indicating the presence of a gapless superconductivity region (between Tc* and Tc). The pair-breaking effect of paramagnetic impurities, supposedly Ce ions, is taken into consideration using the Scalski-Betbeder-Matibet-Weiss approach based on Abrikosov-Gorkov theory. It allows us to recalculate the superconducting order parameter α (in the presence of paramagnetic impurities) and the gap P (in the pure case) for the single crystal and for the previously studied polycrystalline CeRu2. The value 2P(0) ≈ 2 meV, with 2 P(0)/kBTc ≈ 3.75, is found in both cases, indicating that CeRu2 is a ``moderate'' strong-coupling superconductor.
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