The "normal" state of superconducting cuprates might really be normal after all
Abstract
High magnetic field studies of cuprate superconductors revealed a non-BCS temperature dependence of the upper critical field Hc2(T) determined resistively by several groups. These determinations caused some doubts on the grounds of both the contrasting effect of the magnetic field on the in-plane and out-of-plane resistances reported for large Bi2212 sample and the large Nernst signal well above Tc. Here we present both ab(B) and c(B) of tiny Bi2212 crystals in magnetic fields up to 50 Tesla. None of our measurements revealed a situation when on the field increase c reaches its maximum while ab remains very small if not zero. The resistive %upper critical fields estimated from the in-plane and out-of-plane Hc2(T) estimated from ab(B) and c(B) are approximately the same. Our results support any theory of cuprates that describes the state above the resistive phase transition as perfectly normal with a zero off-diagonal order parameter. In particular, the anomalous Nernst effect above the resistive phase transition in high-Tc cuprates can be described quantitatively as a normal state phenomenon in a model with itinerant and localised fermions and/or charged bosons.
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