Dynamics and resilience of the unconventional charge density wave in ScV6Sn6 bilayer kagome metal

Author:

Tuniz Manuel,Consiglio ArmandoORCID,Puntel DennyORCID,Bigi ChiaraORCID,Enzner StefanORCID,Pokharel Ganesh,Orgiani PasqualeORCID,Bronsch WibkeORCID,Parmigiani Fulvio,Polewczyk Vincent,King Phil D. C.ORCID,Wells Justin W.,Zeljkovic IlijaORCID,Carrara PietroORCID,Rossi GiorgioORCID,Fujii Jun,Vobornik Ivana,Wilson Stephen D.ORCID,Thomale RonnyORCID,Wehling Tim,Sangiovanni GiorgioORCID,Panaccione GiancarloORCID,Cilento FedericoORCID,Di Sante DomenicoORCID,Mazzola FedericoORCID

Abstract

AbstractLong-range electronic ordering descending from a metallic parent state constitutes a rich playground to study the interplay of structural and electronic degrees of freedom. In this framework, kagome metals are in the most interesting regime where both phonon and electronically mediated couplings are significant. Several of these systems undergo a charge density wave transition. However, to date, the origin and the main driving force behind this charge order is elusive. Here, we use the kagome metal ScV6Sn6 as a platform to investigate this problem, since it features both a kagome-derived nested Fermi surface and van-Hove singularities near the Fermi level, and a charge-ordered phase that strongly affects its physical properties. By combining time-resolved reflectivity, first principles calculations and photo-emission experiments, we identify the structural degrees of freedom to play a fundamental role in the stabilization of charge order, indicating that ScV6Sn6 features an instance of charge order predominantly originating from phonons.

Publisher

Springer Science and Business Media LLC

Subject

Mechanics of Materials,General Materials Science

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