Structural instability and charge modulations in the Kagome superconductor AV3Sb5

Abstract

Recently, both charge density wave (CDW) and superconductivity have been observed in Kagome compounds AV3Sb5. However, the nature of CDW that results in many novel charge modulations is still under hot debate. By means of the first-principles calculations, we discover two kinds of CDW states, the trimerized and hexamerized 2×2 phase and dimerized 4×1 phase existing in AV3Sb5. Our phonon excitation spectrum and electronic Lindhard function calculations reveal that the most intensive structural instability in AV3Sb5 originates from a combined in-plane vibration mode of V atoms through the electron-phonon coupling, rather than the Fermi surface nesting effect. Crucially, a metastable 4×1 phase with V-V dimer pattern and twofold symmetric bowtie shaped charge modulation is revealed in CsV3Sb5, implying that both dimerization and trimerization exist in the V Kagome layers. These results provide essential understanding of CDW instability and new thoughts for the novel charge modulation patterns.