Kagome Quantum Oscillations in Graphene Superlattices.
Folkert K de VriesSergey SlizovskiyPetar TomićRoshan Krishna KumarAitor Garcia-RuizGiulia ZhengElías PortolésLeonid A PonomarenkoAndre K GeimKenji WatanabeTakashi TaniguchiVladimir Fal'koKlaus EnsslinThomas IhnPeter RickhausPublished in: Nano letters (2024)
Electronic spectra of solids subjected to a magnetic field are often discussed in terms of Landau levels and Hofstadter-butterfly-style Brown-Zak minibands manifested by magneto-oscillations in two-dimensional electron systems. Here, we present the semiclassical precursors of these quantum magneto-oscillations which appear in graphene superlattices at low magnetic field near the Lifshitz transitions and persist at elevated temperatures. These oscillations originate from Aharonov-Bohm interference of electron waves following open trajectories that belong to a kagome-shaped network of paths characteristic for Lifshitz transitions in the moire superlattice minibands of twistronic graphenes.