Quantum geometry in a flat band kagome metal

Min Gu Kang; Sunje Kim; Yuting Qian; Paul M Neves; Linda Ye; Junseo Jung; Denny Puntel; Federico Mazzola; Shiang Fang; Shiang Fang; Christopher Jozwiak; Aaron Bostwick; Eli Rotenberg; Jun Fujii; Ivana Vobornik; Jae-Hoon Park; Joseph G Checkelsky; Bohm-Jung Yang; Riccardo Comin

Quantum geometry in a flat band kagome metal

ORAL

Abstract

The spectrum of flat band materials in condensed matter physics has recently expanded with the realization of geometry-driven flat bands in kagome and pyrochlore lattices. Unlike trivial atomic flat bands, these geometry-driven flat bands exhibit nontrivial quantum geometry, promising the realization of novel flat band phenomena, including fractional quantum Hall effect, anomalous Landau level spreading, and flat band superfluidity. In this work, we develop a framework to extract the full quantum geometric information in solids using polarization-, spin-, and angle-resolved photoemission spectroscopy, and provide experimental measurements of the quantum metric and Berry curvature in the archetypal kagome metal CoSn hosting geometry-driven flat bands. The key idea is to introduce another geometric quantity, the band Drude weight and orbital angular momentum, which are experimentally accessible and approximate the quantum metric and Berry curvature in the two-band limit. Our work establishes a momentum- and energy-resolved spectroscopic probe of quantum geometric information in solids, poised to significantly advance our understanding of rich geometric responses in quantum materials.

^*This work is supported by the Air Force Office of Scientific Research under grant FA9550-22-1-0432

March 5, 2024, 12:06 PM – March 5, 2024, 12:18 PM

Presenters

Min Gu Kang
- Massachusetts Institute of Technology MI
- Cornell University
- Massachusetts Institute of Technology

Authors

Min Gu Kang
- Massachusetts Institute of Technology MI
- Cornell University
- Massachusetts Institute of Technology
Sunje Kim
- Seoul Natl Univ
Yuting Qian
- IBS, Center for Correlated Electron Systems
Paul M Neves
- Massachusetts Institute of Technology MI
Linda Ye
- California Institute of Technology
Junseo Jung
- Seoul Natl Univ
Denny Puntel
- University of Trieste
Federico Mazzola
- Univ of St Andrews
Shiang Fang
- Massachusetts Institute of Technology
Shiang Fang
- Massachusetts Institute of Technology
Christopher Jozwiak
- Lawrence Berkeley National Lab
- Lawrence Berkeley National Laboratory
- Berkeley National Lab
- Advanced Light Source
- The Advanced Light Source, Lawrence Berkeley National Laboratory
- Advanced Light Source, Lawrence Berkeley National Laboratory
Aaron Bostwick
- Lawrence Berkeley National Lab
- Lawrence Berkeley National Laboratory
- Berkeley National Lab
- Advanced Light Source
- The Advanced Light Source, Lawrence Berkeley National Laboratory
- Advanced Light Source, Lawrence Berkeley National Laboratory
Eli Rotenberg
- Lawrence Berkeley National Laboratory
Jun Fujii
- Elettra
Ivana Vobornik
- Elettra
Jae-Hoon Park
- POSTECH
- Pohang Univ of Sci & Tech
Joseph G Checkelsky
- Massachusetts Institute of Technology MI
Bohm-Jung Yang
- Seoul Natl Univ
Riccardo Comin
- Massachusetts Institute of Technology
- MIT