Angle-Tuned Gross-Neveu Quantum Criticality in Twisted Bilayer Graphene: A Quantum Monte Carlo Study

Autor: Huang, Cheng, Parthenios, Nikolaos, Ulybyshev, Maksim, Zhang, Xu, Assaad, Fakher F., Classen, Laura, Meng, Zi Yang
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: The tunability of twisted bilayber graphene (TBG) in particular and the 2D moir\'e materials in general has revealed fascinating quantum many-body states of matter. Unstrained magic-angle TBG at the charge-neutrality point is understood, both experimentally and theoretically, as a correlated insulating state due to the interplay of long-range Coulomb interaction and the quantum metric of the flat bands. However, the fate of the state as one continuously tunes the twist angle is still largely unknown. Theoretically, it was suggested that due to the effective change of interaction strength, angle-tuned TBG might exhibit the first realization of the quantum critical point (QCP) between a correlated insulator and a Dirac semimetal - a condensed matter incarnation of the chiral phase transition of the Gross-Neveu (GN) model studied in the context of quantum chromo dynamics. Here we show that TBG indeed realises an angle-tuned phase transition between a Dirac semimetal and an insulator consistent with a GN quantum criticality in a numerically exact calculation. The transition occurs because the angle effectively tunes the relative weight of kinetic and interaction energy and we map out how this qualitatively changes the single-particle excitation spectrum. Our study is possible due to the recently developed continuous field momentum-space quantum Monte Carlo method, which can fully take into account the long-range Coulomb and quantum metric of flat bands. From the single-particle spectrum, free energy and the analysis of the order parameter of the insulating phase, at system sizes that were not possible before, we find a critical angle of $\Theta_\mathrm{c}$ $\sim$ 1.20(1)$\deg$. This offers the exciting possibility that by tuning away from the magic angle (1.08$\deg$), pristine TBG can mimic a fundamental phase transition of Dirac fermions.
Comment: 17 pages, 10 figures
Databáze: arXiv