Enhanced Seebeck coefficient through the magnetic fluctuations in Sr2Ru1-xMxO4 (M = Co, Mn)

Abstract

The layered perovskite Sr2RuO4 is a most intensively studied superconductor, but its pairing mechanism, which is often coupled intimately with magnetic fluctuations in correlated materials, is still an open question. Here we present a systematic evolution of the Seebeck coefficient in Co- and Mn-substituted Sr2RuO4 single crystals, in which ferromagnetic and antiferromagnetic glassy states respectively emerge in proximity to the superconducting phase of the parent compound. We find that the Seebeck coefficient S divided by temperature T, S/T, shows a maximum near characteristic temperatures seen in the irreversible magnetization M ir in both of the Co- and Mn-substituted crystals, demonstrating both of the ferromagnetic and antiferromagnetic fluctuations to enhance the Seebeck coefficient. Interestingly, S/T increases with lowering temperature in the parent compound, reminiscent of non-Fermi-liquid behavior, indicating an essential role of coexisting ferromagnetic and antiferromagnetic fluctuations for the itinerant electrons in Sr2RuO4.

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