Unconventional Upper- and Lower-Critical Fields and Normal-State Magnetic Susceptibility of the Novel Superconducting Compound Na0.35 Co O2 · 1.3 H2O
Abstract
Magnetic properties of the novel layered superconductor, Na0.35CoO2·1.3H2O have been investigated. From the temperature dependence and field dependence of the magnetization, the superconducting transition temperature, as well as upper- and lower-critical fields have been estimated to be TC=4.6 K, HC2(0)=61.0 T and HC1(0)=28.1 Oe. These values give quite unusual phenomenological parameters, i.e., coherent length, penetration depth and Ginzburg-Landau parameter of ξ=2.32 nm, λ=5.68× 103 Å and κλ/ξ=244, suggesting an unconventional nature of superconductivity. Normal-state magnetic susceptibility shows an upturn below 130 K, which is confirmed to be inherent by high-field magnetization data. The upturn may have relevance to the mechanism of the superconductivity.
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