Unconventional Charge Density Wave And Photoinduced Lattice Symmetry Change In The Kagome Metal Csv3sb5 Probed By Time-Resolved Spectroscopy
PHYSICAL REVIEW B(2021)
摘要
Recently, the kagome lattice metal AV(3)Sb(5) (A = K, Rb, Cs) family has received wide attention due to its coexistence of superconductivity, charge density wave (CDW), and peculiar properties arising from a topological nontrivial electronic structure. With time-resolved pump-probe spectroscopy, we show that the excited quasiparticle relaxation dynamics can be explained by the formation of a temperature-dependent energy gap below the phase transition that is similar to a usual second-order CDWcondensate. By contrast, the structural change shows a predominantly first-order phase transition. Furthermore, no CDW amplitude mode is identified in the ordered phase. The results suggest that the CDW order is very different from a conventional CDW condensate. We also find that a weak pump pulse can nonthermally melt the CDWorder and drive the sample into its high-temperature phase, revealing a small difference in lattice potential between those phases.
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关键词
unconventional charge density wave,lattice symmetry change,spectroscopy,time-resolved
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