Strange metal behavior of the Hall angle in twisted bilayer graphene

Abstract

Twisted bilayer graphene (TBG) with interlayer twist angles near the magic angle ≈ 1.08 hosts flat bands and exhibits correlated states including Mott-like insulators, superconductivity and magnetism. Here we report combined temperature-dependent transport measurements of the longitudinal and Hall resistivities in close to magic-angle TBG. While the observed longitudinal resistivity follows linear temperature T dependence consistent with previous reports, the Hall resistance shows an anomalous T dependence with the cotangent of the Hall angle cot H T2. Boltzmann theory for quasiparticle transport predicts that both the resistivity and cot H should have the same T dependence, contradicting the observed behavior. This failure of quasiparticle-based theories is reminiscent of other correlated strange metals such as cuprates.