Discovery of a new phase in thin flakes of KV3Sb5 under pressure
Abstract
We report results of magnetotransport measurements on KV3Sb5 thin flakes under pressure. Our zero-field electrical resistance reveals an additional anomaly emerging under pressure (p), marking a previously unidentified phase boundary T (p). Together with the established T CDW(p) and Tc(p), denoting the charge-density-wave transition and a superconducting transition, respectively, the temperature-pressure phase diagram of KV3Sb5 features a rich interplay among multiple phases. The Hall coefficient evolves reasonably smoothly when crossing the T phase boundary compared with the variation when crossing T CDW, indicating the preservation of the pristine electronic structure. The mobility spectrum analysis provides further insights into distinguishing different phases. Finally, our high-pressure quantum oscillation studies up to 31 T combined with density functional theory calculations further demonstrate that the new phase does not reconstruct the Fermi surface, confirming that the translational symmetry of the pristine metallic state is preserved.
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