Publication: Interacting topological quantum chemistry of Mott atomic limits
Interacting topological quantum chemistry of Mott atomic limits
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Soldini, M. O., Astrakhantsev, N., Iraola, M., Tiwari, A., Fischer, M. H., Valentí, R., Vergniory, M. G., Wagner, G., & Neupert, T. (2023). Interacting topological quantum chemistry of Mott atomic limits. Physical Review B, 107, 245145. https://doi.org/10.1103/PhysRevB.107.245145
Abstract
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Abstract
Topological quantum chemistry (TQC) is a successful framework for identifying (noninteracting) topological materials. Based on the symmetry eigenvalues of Bloch eigenstates at maximal momenta, which are attainable from first principles calculations, a band structure can either be classified as an atomic limit, in other words adiabatically connected to independent electronic orbitals on the respective crystal lattice, or it is topological. For interacting systems, there is no single-particle band structure and hence, the TQC machinery
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- Soldini, Martina O
- Astrakhantsev, Nikita
- Iraola, Mikel
- Tiwari, Apoorv
- Valentí, Roser
- Vergniory, Maia G
- Wagner, Glenn
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Soldini, M. O., Astrakhantsev, N., Iraola, M., Tiwari, A., Fischer, M. H., Valentí, R., Vergniory, M. G., Wagner, G., & Neupert, T. (2023). Interacting topological quantum chemistry of Mott atomic limits. Physical Review B, 107, 245145. https://doi.org/10.1103/PhysRevB.107.245145
