Interplay of d- and p-states in RbTi3Bi5 and CsTi3Bi5 flat-band kagome metals

M. Wenzel; E. Uykur; A. A. Tsirlin; A. N.Capa Salinas; B. R. Ortiz; S. D. Wilson; M. Dressel

doi:10.1103/qq6c-3m2z

Interplay of d- and p-states in RbTi₃Bi₅ and CsTi₃Bi₅ flat-band kagome metals

M. Wenzel
, E. Uykur
, A. A. Tsirlin
, A. N.Capa Salinas
, B. R. Ortiz
, S. D. Wilson
, M. Dressel

Correlated Electron Materials

Research output: Contribution to journal › Letter › peer-review

3 Scopus citations

Abstract

Shifting the Fermi level of the celebrated AM₃X₅ (135) compounds into proximity of flat bands strongly enhances electronic correlations and severely affects the formation of density waves and superconductivity. Our broadband infrared spectroscopy measurements of RbTi₃ Bi₅ and CsTi₃ Bi₅ combined with density-functional band-structure calculations reveal that the correlated Ti d-states are intricately coupled with the Bi p-states that form a tilted Dirac crossing. Electron-phonon coupling manifests itself in the strong damping of itinerant carriers and in the anomalous shape of the phonon line in RbTi3Bi5. An anomaly in these spectral features around 150 K can be paralleled to the onset of nematicity detected by low-temperature probes. Our findings show that the materials with low band filling open unexplored directions in the physics of kagome metals and involve electronic states of different nature strongly coupled with lattice dynamics.

Original language	English
Pages (from-to)	L0411221-L0411227
Journal	Physical Review B
Volume	112
Issue number	4
DOIs	https://doi.org/10.1103/qq6c-3m2z
State	Published - Jul 22 2025

Funding

Acknowledgments. We are grateful to Gabriele Untere-iner for preparing single crystals and assisting in the optical measurements. M.W. is supported by Center for Integrated Quantum Science and Technology (IQST) Stuttgart/Ulm via a project funded by the Carl Zeiss Stiftung. Work by B.R.O. was supported by the U.S. Department of Energy, Office of Science, Basic Energy Sciences, Materials Sciences and Engineering Division. S.D.W. gratefully acknowledges support via the UC Santa Barbara NSF Quantum Foundry funded via the Q-AMASE-i program under Award No. DMR-1906325. The work has been supported by the Deutsche Forschungsgemein-schaft (DFG) via DR228/51-3, DR228/68-1, and UY63/2-1.

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title = "Interplay of d- and p-states in RbTi3Bi5 and CsTi3Bi5 flat-band kagome metals",

abstract = "Shifting the Fermi level of the celebrated AM3X5 (135) compounds into proximity of flat bands strongly enhances electronic correlations and severely affects the formation of density waves and superconductivity. Our broadband infrared spectroscopy measurements of RbTi3 Bi5 and CsTi3 Bi5 combined with density-functional band-structure calculations reveal that the correlated Ti d-states are intricately coupled with the Bi p-states that form a tilted Dirac crossing. Electron-phonon coupling manifests itself in the strong damping of itinerant carriers and in the anomalous shape of the phonon line in RbTi3Bi5. An anomaly in these spectral features around 150 K can be paralleled to the onset of nematicity detected by low-temperature probes. Our findings show that the materials with low band filling open unexplored directions in the physics of kagome metals and involve electronic states of different nature strongly coupled with lattice dynamics.",

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T1 - Interplay of d- and p-states in RbTi3Bi5 and CsTi3Bi5 flat-band kagome metals

AU - Wenzel, M.

AU - Uykur, E.

AU - Tsirlin, A. A.

AU - Salinas, A. N.Capa

AU - Ortiz, B. R.

AU - Wilson, S. D.

AU - Dressel, M.

PY - 2025/7/22

Y1 - 2025/7/22

N2 - Shifting the Fermi level of the celebrated AM3X5 (135) compounds into proximity of flat bands strongly enhances electronic correlations and severely affects the formation of density waves and superconductivity. Our broadband infrared spectroscopy measurements of RbTi3 Bi5 and CsTi3 Bi5 combined with density-functional band-structure calculations reveal that the correlated Ti d-states are intricately coupled with the Bi p-states that form a tilted Dirac crossing. Electron-phonon coupling manifests itself in the strong damping of itinerant carriers and in the anomalous shape of the phonon line in RbTi3Bi5. An anomaly in these spectral features around 150 K can be paralleled to the onset of nematicity detected by low-temperature probes. Our findings show that the materials with low band filling open unexplored directions in the physics of kagome metals and involve electronic states of different nature strongly coupled with lattice dynamics.

AB - Shifting the Fermi level of the celebrated AM3X5 (135) compounds into proximity of flat bands strongly enhances electronic correlations and severely affects the formation of density waves and superconductivity. Our broadband infrared spectroscopy measurements of RbTi3 Bi5 and CsTi3 Bi5 combined with density-functional band-structure calculations reveal that the correlated Ti d-states are intricately coupled with the Bi p-states that form a tilted Dirac crossing. Electron-phonon coupling manifests itself in the strong damping of itinerant carriers and in the anomalous shape of the phonon line in RbTi3Bi5. An anomaly in these spectral features around 150 K can be paralleled to the onset of nematicity detected by low-temperature probes. Our findings show that the materials with low band filling open unexplored directions in the physics of kagome metals and involve electronic states of different nature strongly coupled with lattice dynamics.

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VL - 112

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JO - Physical Review B

JF - Physical Review B

IS - 4

ER -

Interplay of d- and p-states in RbTi₃Bi₅ and CsTi₃Bi₅ flat-band kagome metals

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