Pseudogap behavior in charge density wave kagome material ScV6Sn6 revealed by magnetotransport measurements

Abstract

Over the last few years, significant attention has been devoted to studying the kagome materials AV3Sb5 (A = K, Rb, Cs) due to their unconventional superconductivity and charge density wave (CDW) ordering. Recently ScV6Sn6 was found to host a CDW below ≈90K, and, like AV3Sb5, it contains a kagome lattice comprised only of V ions. Here we present a comprehensive magnetotransport study on ScV6Sn6. We discovered several anomalous transport phenomena above the CDW ordering temperature, including insulating behavior in interlayer resistivity, a strongly temperature-dependent Hall coefficient, and violation of Kohler's rule. All these anomalies can be consistently explained by a progressive decrease in carrier densities with decreasing temperature, suggesting the formation of a pseudogap. Our findings suggest that high-temperature CDW fluctuations play a significant role in determining the normal state electronic properties of ScV6Sn6.