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Anthony J Leggett Institute for Condensed Matter Theory Special Seminar - "Interaction-induced topological electronic crystals: theory and phenomenology"

Event Type
Seminar/Symposium
Sponsor
Physics - The Anthony J Leggett Institute for Condensed Matter Theory
Location
MRL 280
Date
Dec 5, 2024   12:00 pm  
Speaker
Nisarga Paul, Massachusetts Institute of Technology
Contact
Stephen Bullwinkel
E-Mail
bullwink@illinois.edu
Phone
217-333-1652
Views
20
Originating Calendar
Physics - The Anthony J Leggett Institute for Condensed Matter Theory Seminar

Topological electronic crystals (TECs) are electronic phases of matter where spontaneous crystalline order coexists with, or indeed gives rise to, a quantized topological response. TECs are currently of great interest due to recent discoveries in moiré materials of quantized (anomalous) Hall responses over extended ranges of density, indicating that they– and their fractional descendants– can be stabilized [1,2]. However, TECs confound most beyond-mean-field numerical approaches, making exactly solvable models valuable. In this talk, we introduce a beyond-mean-field, analytically controlled theory of a class of TECs known as (anomalous) Hall crystals [3]. Our setup involves Landau levels or parent Chern bands subject to a one-dimensional periodic potential, mimicking aspects of moiré physics, with the system spontaneously forming charge density waves in the transverse direction, giving rise to various Chern numbers. We present a global phase diagram, contrast the Hall and anomalous Hall cases, and discuss experimental realizations. Finally, we present surprising aspects of magnetism in TECs distinguishing them sharply from ordinary Wigner crystals.

[1] Su et al., Topological electronic crystals in twisted bilayer-trilayer graphene, arXiv:2406.17766 [2] Lu et al., Extended Quantum Anomalous Hall States in Graphene/hBN Moiré Superlattices, arXiv:2408.10203 [3] NP, G. Shavit, L. Fu, Designing (higher) Hall crystals, arXiv:2410.03888
[2] Lu et al., Extended Quantum Anomalous Hall States in Graphene/hBN Moiré Superlattices, arXiv:2408.10203
[3] NP, G. Shavit, L. Fu, Designing (higher) Hall crystals, arXiv:2410.03888

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