Quantum transport evidence of topological band structures of kagome superconductor CsV3Sb5


Abstract in English

We report the transport properties of kagome superconductor CsV3Sb5 single crystals at magnetic field up to 32 T. The Shubnikov de Haas (SdH) oscillations emerge at low temperature and four frequencies of $F_{alpha}=$ 27 T, F_beta = 73 T, F_epsilon = 727 T, and F_eta = 786 T with relative small cyclotron masses are observed. For F_beta and F_epsilon, the Berry phases are close to pi, providing a clear evidence of nontrivial topological band structures of CsV3Sb5. Furthermore, combined with the angular dependence of SdH oscillations and theoretical calculations based on the undistorted structure, we have demonstrated that the Fermi surface related to F_beta is quasi-two-dimensional and can be assigned to the Dirac cone along the Gamma-K direction of Brillouin zone (BZ). The F_epsilon could be related to the Fermi surface centering at the H point of BZ. The absence of F_alpha and F_eta in theoretical calculations suggests that charge density wave transition could have an important influence on the shapes of Fermi surfaces, especially near the M and L points of BZ. These results will shed light on the nature of correlated topological physics in kagome material CsV3Sb5.

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