2022, Evidence for Moiré Intralayer Excitons in Twisted WSe2/WSe2 Homobilayer Superlattices, Light: Science & Applications
2022, Evidence for Moiré Intralayer Excitons in Twisted WSe2/WSe2 Homobilayer Superlattices, Light: Science & Applications
Abstract:
Recent advances in twisted van der Waals heterostructure superlattices have emerged as a powerful and attractive platform for exploring novel condensed matter physics due to the interplay between the moiré potential and Coulomb interactions. The moiré superlattices act as a periodic confinement potential in space to capture interlayer excitons (IXs), resulting in moiré exciton arrays, which provide opportunities for quantum emitters and many-body physics. The observation of moiré IXs in twisted transition-metal dichalcogenide (TMD) heterostructures has recently been widely reported. However, the capture and study of the moiré intralayer excitons based on TMD twisted homobilayer (T-HB) remain elusive. Here, we report the observation of moiré intralayer excitons in a WSe2/WSe2 T-HB with a small twist angle by measuring the PL spectrum. The multiple split peaks with an energy range of 1.55 to 1.73 eV are different from that of the monolayer WSe2 exciton peaks. The split peaks were caused by the trapping of intralayer excitons via the moiré potential. The confinement effect of the moiré potential on the moiré intralayer excitons was further demonstrated by the changing of temperature, laser power, and valley polarization. Our findings provide a new avenue for exploring new correlated quantum phenomena and their applications.
Keywords: van der Waals heterostructures, Transition metal dichalcogenides, Moiré Intralayer Excitons
Link:https://www.nature.com/articles/s41377-022-00854-0
