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Discovery of an intermediate nematic state in a bilayer kagome metal ScV6Sn6.

ABSTRACT: Nematicity, spontaneous breaking of rotational symmetry, is a ubiquitous phenomenon in correlated quantum matter. Here we show a phase transition in high-quality ScV6Sn6 bilayer kagome metal at a temperature T* , occurring seven Kelvins below the charge density wave transition at TCDW , as indicated by thermodynamic, transport, and optical measurements. This emerging intermediate phase does not exhibit spontaneous time-reversal-symmetry breaking, as evidenced by zero-field Sagnac interferometry. However, it displays a strong, spontaneous in-plane anisotropy between T* and TCDW , revealed by transport and optical polarization rotation measurements. A pronounced depolarization effect detected by the Sagnac interferometer further confirms its nematic nature. Unlike AV3Sb5, this phase, alongside the recently discovered intra-unit cell nematic order at lower temperatures, presents a diverse landscape of nematicities at multiple length and temperature scales. Our findings highlight ScV6Sn6 as a prime candidate for realizing symmetry-breaking phases driven by charge density competition, kagome physics, and Van Hove singularities.

SUBMITTER: Farhang C 

PROVIDER: S-EPMC12375086 | biostudies-literature | 2025 Aug

REPOSITORIES: biostudies-literature

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Discovery of an intermediate nematic state in a bilayer kagome metal ScV<sub>6</sub>Sn<sub>6</sub>.

Farhang Camron C   Meier William R WR   Lu Weihang W   Li Jiangxu J   Wu Yudong Y   Mozaffari Shirin S   Madhogaria Richa P RP   Zhang Yang Y   Mandrus David D   Xia Jing J  

Nature communications 20250823 1

Nematicity, spontaneous breaking of rotational symmetry, is a ubiquitous phenomenon in correlated quantum matter. Here we show a phase transition in high-quality ScV<sub>6</sub>Sn<sub>6</sub> bilayer kagome metal at a temperature T* , occurring seven Kelvins below the charge density wave transition at TCDW , as indicated by thermodynamic, transport, and optical measurements. This emerging intermediate phase does not exhibit spontaneous time-reversal-symmetry breaking, as evidenced by zero-field  ...[more]

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