Large Fermi surface in pristine kagome metal CsV 3 Sb 5 and enhanced quasiparticle effective masses - Archive ouverte HAL
Article Dans Une Revue Proceedings of the National Academy of Sciences of the United States of America Année : 2024

Large Fermi surface in pristine kagome metal CsV 3 Sb 5 and enhanced quasiparticle effective masses

Wing Chi Yu

Résumé

The kagome metal CsV 3 Sb 5 is an ideal platform to study the interplay between topology and electron correlation. To understand the fermiology of CsV 3 Sb 5 , intensive quantum oscillation (QO) studies at ambient pressure have been conducted. However, due to the Fermi surface reconstruction by the complicated charge density wave (CDW) order, the QO spectrum is exceedingly complex, hindering a complete understanding of the fermiology. Here, we directly map the Fermi surface of the pristine CsV 3 Sb 5 by measuring Shubnikov–de Haas QOs up to 29 T under pressure, where the CDW order is completely suppressed. The QO spectrum of the pristine CsV 3 Sb 5 is significantly simpler than the one in the CDW phase, and the detected oscillation frequencies agree well with our density functional theory calculations. In particular, a frequency as large as 8,200 T is detected. Pressure-dependent QO studies further reveal a weak but noticeable enhancement of the quasiparticle effective masses on approaching the critical pressure where the CDW order disappears, hinting at the presence of quantum fluctuations. Our high-pressure QO results reveal the large, unreconstructed Fermi surface of CsV 3 Sb 5 , paving the way to understanding the parent state of this intriguing metal in which the electrons can be organized into different ordered states.

Dates et versions

hal-04675317 , version 1 (22-08-2024)

Identifiants

Citer

Wei Zhang, Tsz Fung Poon, Chun Wai Tsang, Wenyan Wang, X. Liu, et al.. Large Fermi surface in pristine kagome metal CsV 3 Sb 5 and enhanced quasiparticle effective masses. Proceedings of the National Academy of Sciences of the United States of America, 2024, 121 (21), ⟨10.1073/pnas.2322270121⟩. ⟨hal-04675317⟩
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