1. Frustrated phonon with charge density wave in vanadium Kagome metal
- Author
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Heo, Seung-Phil, Won, Choongjae, Lee, Heemin, Kim, Hanbyul, Park, Eunyoung, Lee, Sung Yun, Hwang, Junha, Choi, Hyeongi, Park, Sang-Youn, Lee, Byungjune, Noh, Woo-Suk, Jang, Hoyoung, Park, Jae-Hoon, Shin, Dongbin, and Song, Changyong
- Subjects
Condensed Matter - Strongly Correlated Electrons - Abstract
Crystals with unique ionic arrangements and strong electronic correlations serve as a fertile ground for the emergence of exotic phases, as evidenced by the coexistence of charge density wave (CDW) and superconductivity in vanadium Kagome metals, specifically AV3Sb5 (where A represents K, Rb, or Cs). The formation of a star of David CDW superstructure, resulting from the coordinated displacements of vanadium ions on a corner sharing triangular lattice, has garnered significant attention in efforts to comprehend the influence of electron phonon interaction within this geometrically intricate lattice. However, understanding of the underlying mechanism behind CDW formation, coupled with symmetry protected lattice vibrations, remains elusive. In this study, we employed time resolved X ray scattering experiments utilising an X ray free electron laser. Our findings reveal that the phonon mode associated with the out of plane motion of Cs ions becomes frustrated in the CDW phase. Furthermore, we observed the photoinduced emergence of a metastable CDW phase, facilitated by the alleviation of frustration through nonadiabatic changes in free energy. By elucidating the longstanding puzzle surrounding the intervention of phonons in CDW ordering, this research offers fresh insights into the competition between phonons and periodic lattice distortions, a phenomenon widespread in other correlated quantum materials including layered high Tc superconductors., Comment: Manuscript: 20 pages, 4 figures, SI: 14 pages, 8 figures
- Published
- 2024