Magneto-Seebeck effect and ambipolar Nernst effect in CsV3Sb5 superconductor
Abstract
We present a study of Seebeck and Nernst effect in combination with magnetoresistance and Hall measurements of the Kagome superconductor CsV3Sb5. Sizable magneto-Seebeck signal appears once the charge density wave (CDW) order sets in below TCDW=94 K. The Nernst signal peaks at a lower temperature T*=35 K, crossing which the Hall coefficient switches sign, which we attribute to the ambipolar transport of compensated bands due to the multi-band nature of CsV3Sb5. Sublinear Nernst signal as a function of magnetic field, together with large anomalous Nernst effect (ANE) also emerge inside the CDW phase, despite the absence of long-range magnetic order. These findings suggest that, the transport properties are dominated by small pockets with multi-band profile, and that the unusual band topology also plays an import role in the CDW state of CsV3Sb5.
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