Emergent nematicity and intrinsic vs. extrinsic electronic scattering processes in the kagome metal CsV3Sb5

Abstract

Fermi surface fluctuations and lattice instabilities in the 2D metallic kagome superconductor CsV3Sb5 are elucidated via polarization-resolved Raman spectroscopy. The presence of a weak electronic continuum in high-quality samples marks the cross-over into the charge-density-wave (CDW) ordered phase, while impurity-rich samples promote strong defect-induced electronic scattering processes that affect the coherence of the CDW phase. CDW-induced phonon anomalies appear below TCDW, with emergent C2 symmetry for one of the CDW amplitude modes, alluding to nematicity. In conjunction with symmetry-breaking lattice distortions, a kink-like hardening of the A1g phonon energy at TCDW signifies a concerted interplay of electronic correlations and electron-phonon coupling in the exotic CDW order.