Competing charge-density wave instabilities in the kagome metal ScV6Sn6

Abstract

Owing to its unique geometry, the kagome lattice hosts various many-body quantum states including frustrated magnetism, superconductivity, and charge-density waves (CDWs), with intense efforts focused on kagome metals exhibiting 2×2 CDWs associated with the nesting of van Hove saddle points. Recently, a 3×3 CDW was discovered in the kagome metal ScV6Sn6 below T CDW≈91~K, whose underlying mechanism and formation process remain unclear. Using inelastic X-ray scattering, we discover a short-range 3×3×2 CDW that is dominant in ScV6Sn6 well above T CDW, distinct from the 3×3×3 CDW below T CDW. The short-range CDW grows upon cooling, and is accompanied by the softening of phonons, indicative of its dynamic nature. As the 3×3×3 CDW appears, the short-range CDW becomes suppressed, revealing a competition between these CDW instabilities. Our first-principles calculations indicate that the 3×3×2 CDW is energetically favored, consistent with experimental observations at high temperatures. However, the 3×3×3 CDW is selected as the ground state likely due to a large wavevector-dependent electron-phonon coupling, which also accounts for the enhanced electron scattering above T CDW. The competing CDW instabilities in ScV6Sn6 lead to an unusual CDW formation process, with the most pronounced phonon softening and the static CDW occurring at different wavevectors.