A controlled expansion in s² for electrons with concentrated kinematics allows analytical calculations of spectral broadening, T-linear resistivity in bad metals, and spectral functions in Mott semimetals for Hubbard and Chern band models.
Twisted Bilayer Graphene Lifetimes At Integer Fillings: An Analytic Result
2 Pith papers cite this work. Polarity classification is still indexing.
abstract
Twisted bilayer graphene near integer fillings hosts correlated single-particle excitations whose dispersion and linewidth are increasingly accessible experimentally. We study these excitations using the topological heavy-fermion model, which captures both strong correlations and band topology of twisted bilayer graphene. In the decoupled limit, where both the single-particle fc hybridization and the Hund coupling between f and c electrons are absent, the model admits exact solutions in which free Dirac fermions coexist with interacting f electrons that form zero-width Hubbard bands. By treating the fc hybridization and Hund coupling perturbatively around this solvable limit, we obtain analytical results for the single-particle self-energy. From the resulting self-energy, we derive explicit expressions for both dispersion renormalization and scattering rates of both Hubbard-band excitations and low-energy Dirac modes, thereby establishing an analytical framework for understanding correlated excitations in twisted bilayer graphene. We analyze the scattering of the two kinds, Gamma3 and Gamma1,2, of Dirac electrons and find that they arise from different mechanisms. We also briefly investigate the effect of strain. Finally, we compare these analytical expressions with DMFT results for the same model.
fields
cond-mat.str-el 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Controlled loop expansion in strained MATBG reveals U(1) symmetry suppressing Mott band linewidths at order s² and predicts strain-induced kinks plus a flat trion band, with one-loop QTM spectra compared to experiment.
citing papers explorer
-
Controlled expansion for correlated electrons with concentrated kinematics
A controlled expansion in s² for electrons with concentrated kinematics allows analytical calculations of spectral broadening, T-linear resistivity in bad metals, and spectral functions in Mott semimetals for Hubbard and Chern band models.
-
Controlled Loop Expansion for Strained Twisted Bilayer Graphene
Controlled loop expansion in strained MATBG reveals U(1) symmetry suppressing Mott band linewidths at order s² and predicts strain-induced kinks plus a flat trion band, with one-loop QTM spectra compared to experiment.