Quantum Geometry in Condensed Matter

INVITED · MAR-A04 · ID: MAR-A04








Presentations

  • Invited-In-person · Invited

    Publication: [1] Alexander Avdoshkin, Johannes Mitscherling, and Joel E. Moore, The multi-state geometry of shift current and polarization, Phys. Rev. Lett. 135, 066901 (2025).
    [2] Johannes Mitscherling, Alexander Avdoshkin, and Joel E. Moore, Gauge-invariant projector calculus for quantum state geometry and applications to observables in crystals, Phys. Rev. B 112, 085104 (2025).

    Presenters

    • Joel Moore

      • University of California, Berkeley

    Authors

    • Joel Moore

      • University of California, Berkeley

    View abstract →

  • Invited-In-person · Invited

    Publication: [1] Y. Onishi and L. Fu, Quantum weight: A fundamental property of quantum many-body systems, Phys. Rev. Res. 7, 023158 (2025).
    [2] Y. Onishi and L. Fu, Topological Bound on the Structure Factor, Phys. Rev. Lett. 133, 206602 (2024).
    [3] Y. Onishi and L. Fu, Fundamental Bound on Topological Gap, Phys. Rev. X 14, 011052 (2024).

    Presenters

    • Yugo Onishi

      • Massachusetts Institute of Technology

    Authors

    • Yugo Onishi

      • Massachusetts Institute of Technology
    • Liang Fu

      • Massachusetts Institute of Technology

    View abstract →

  • Invited-In-person · Invited

    Publication: Optical bounds on many-electron localization, Ivo Souza, Richard M. Martin, and Massimiliano Stengel, SciPost Phys. 18 127 (2025).

    Precise quantum-geometric electronic properties from first principles, José Luís Martins, Carlos Loia Reis, and Ivo Souza, SciPost Phys. 19 109 (2025).

    Electronic bounds in magnetic crystals, Daniel Passos and Ivo Souza, arXIv:2509.16121.

    Presenters

    • Ivo Souza

      • Centro de Física de Materiales

    Authors

    • Ivo Souza

      • Centro de Física de Materiales

    View abstract →

  • Invited-In-person · Invited

    Publication: Published: PhysRevLett.133.246603; PhysRevX.12.031022; PhysRevB.109.035413;

    Planned: "Probing the Fermi Sea Topology in a Quantum Gas" by Cyprien Daix, Pok Man Tam, Maxime Dixmerias, Joris Verstraten, Tim de Jongh, Bruno Peaudecerf, Charles L. Kane, and Tarik Yefsah

    Presenters

    • Pok Man Tam

      • Princeton University

    Authors

    • Pok Man Tam

      • Princeton University

    View abstract →