Weyl Kondo semimetal without quasiparticles

Lei Chen; Haoyu Hu; Chandan Setty; Mikel García Díez; Sarah Elaine Grefe; Andrey Prokofiev; Stefan Kirchner; Maia G Garcia Vergniory; Silke Buehler-Paschen; Jennifer Cano; Qimiao Si

Weyl Kondo semimetal without quasiparticles

ORAL

Abstract

The interplay between interaction and topology is an outstanding topic in current research [1]. One intriguing question that remains is whether, and how, a gapless topological state can be realized when the Fermi-liquid framework breaks down. In this work [2,3], we substantiate the existence of this new type of topological states in two settings. The first occurs for a quantum critical phase, as exemplified by multichannel Kondo systems [2], where the multichannel Kondo effect stabilizes a non-Fermi liquid topological phase. The second one is the Weyl Kondo semimetal near a quantum critical point [3]. We show how symmetry constraints extend to the Green’s function, allowing for the possibility of non-Fermi liquid topological semimetal states. We also discuss the properties and topological signatures of these states, along with their connection to recent material realization [3].

[1] S. Paschen & Q. Si, Nat. Rev. Phys. 3, 9 (2021).

[2] H. Hu et al., arXiv:2110.06182

[3] D. M. Kirschbaum, L. Chen et al., arXiv:2404.15924 (2024)

March 20, 2025, 3:18 PM – March 20, 2025, 3:30 PM

Publication: H. Hu et al., arXiv:2110.06182; D. M. Kirschbaum, L. Chen et al., arXiv:2404.15924 (2024)

Presenters

Lei Chen

Stony Brook University, Rice University

Authors

Lei Chen

Stony Brook University, Rice University
Haoyu Hu

Donostia International Physics Center, Princeton University, Rice University
Chandan Setty

Iowa State University and Ames National Lab
Mikel García Díez

University of the Basque Country UPV/EH
Sarah Elaine Grefe

California State University, Long Beach
Andrey Prokofiev

Vienna University of Technology
Stefan Kirchner

National Yang Ming Chiao Tung University
Maia G Garcia Vergniory

Donostia International Physics Center, Université de Sherbrooke, Max Planck Inst
Silke Buehler-Paschen

Tu Wein, Vienna University of Technology, TU Wien, Vienna Univ of Technology
Jennifer Cano

Stony Brook University
Qimiao Si

Rice University