DCMP Prize Session (Buckley, Greene)

INVITED · MAR-P01 · ID: MAR-P01








Presentations

  • Invited-In-person · Invited

    Publication: 1) R. Guerrero-Suarez, A. Suresh, T. Maiti, S. Liang, J. Nakamura, G. C. Gardner, C. Chamon, and M. J. Manfra, "Universal Anyon Tunneling in a Chiral Luttinger Liquid," Nature Physics 21, 1787-1793 (2025)
    2) S. Liang, J. Nakamura, G. C. Gardner, and M. J. Manfra, "Single electron interference and capacitive edge mode coupling generates  flux periodicity in Fabry-Perot interferometers in the integer quantum Hall regime," Nature Communications 16, 7586 (2025)
    3) James Nakamura, Shuang Liang, Geoffrey C Gardner, Michael J. Manfra, "Fabry-Perot interferometry at the = 2/5 fractional quantum Hall state," Physical Review X 13, 041012 (2023)
    4) J. Nakamura, S. Liang, G. C. Gardner, and M. J. Manfra, "Half-integer conductance plateau at the =2/3 fractional quantum Hall state in a quantum point contact," Physical Review Letters, 130, 076205 (2023)
    5) J. Nakamura, S. Liang, G. C. Gardner, and M. J. Manfra, "Impact of bulk-edge coupling on observation of anyonic braiding statistics in quantum Hall interferometers," Nature Communications 13, 344 (2022)
    6) J. Nakamura, S. Liang, G. C. Gardner, and M. J. Manfra, "Direct observation of anyonic braiding statistics," Nature Physics 16, 931-936 (2020)
    7) J. Nakamura, S. Fallahi, H. Sahasrabudhe, R. Rahman, S. Liang, G. C. Gardner, and M. J. Manfra, "Aharonov-Bohm interference of fractional quantum Hall edge modes," Nature Physics 15, 563-569 (2019)

    Presenters

    • Michael Manfra

      • Purdue University

    Authors

    • Michael Manfra

      • Purdue University

    View abstract →

  • Invited-In-person · Invited

    Publication: [1] Y. Ronen, T. Werkmeister et al. Aharonov–Bohm effect in graphene-based Fabry–Pérot quantum Hall interferometers. Nature Nanotechnology 16, 563–569 (2021).
    [2] T. Werkmeister et al. Strongly coupled edge states in a graphene quantum Hall interferometer. Nature Communications 15,6533 (2024).
    [3] T. Werkmeister, J.R. Ehrets et al. Anyon braiding and telegraph noise in a graphene interferometer. Science 388, 730–735 (2025).

    Presenters

    • Thomas Werkmeister

      • Columbia University

    Authors

    • Thomas Werkmeister

      • Columbia University

    View abstract →