Kirschbaum, D. M., Chen, L., Zocco, D. A., Hu, H., Mazza, F., Larrea Jiménez, J. A., Strydom, A. M., Adroja, D., Yan, X., Prokofiev, A., Si, Q., & Paschen, S. (2024). Emergent Topological Semimetal. arXiv. https://doi.org/10.48550/arXiv.2404.15924
solid state physics; intermetallic compounds; strongly correlated electron systems
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Abstract:
A material's electronic topology, which is generally described via its Bloch states and the associated bandstructure, will be enriched by the presence of interactions. In metallic settings, the interactions are usually treated through the concept of quasiparticles. Using the genuinely quantum critical heavy fermion compound CeRu4Sn6, we investigate what happens if no well-defined quasiparticles are present. Surprisingly, we discover a topological semimetal phase that emerges from the material's quantum critical state and exhibits a dome structure as a function of magnetic field and pressure. To understand these results, we study a Weyl-Kondo semimetal model at a Kondo destruction quantum critical point. Indeed, it exhibits features in the spectral function that can define topological crossings beyond the quasiparticle picture. We expect our work to stimulate the search for other emergent topological phases.
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Project title:
Extreme Spin-Bahn-Kopplung für neue Quantenzustände: I 4047-N27 (FWF - Österr. Wissenschaftsfonds) Zentrum für korrelierte Quantenmaterialien und festkörperbasierte Quantensysteme: F 8600 (FWF - Österr. Wissenschaftsfonds) Quantum phase transitions and collective modes: I 5868-N (FWF - Österr. Wissenschaftsfonds) excellent=austria: Quantum Science Austria: COE 1 (FWF - Österr. Wissenschaftsfonds) Correlation-driven metallic topology: 101055088 (European Commission)
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Research Areas:
Metallic Materials: 8% Special and Engineering Materials: 10% Quantum Many-body Systems Physics: 82%
