{Reference Type}: Journal Article
{Title}: Local Gate Enhanced Correlated Phases in Twisted Monolayer-Bilayer Graphene.
{Author}: Wang Y;Wang Z;Cao L;Han Y;Peng H;Wang Z;Xue Y;Watanabe K;Taniguchi T;Lu J;Duan J;Gao HJ;Jiang Y;Mao J;
{Journal}: ACS Nano
{Volume}: 18
{Issue}: 27
{Year}: 2024 Jul 9
{Factor}: 18.027
{DOI}: 10.1021/acsnano.4c02733
{Abstract}: Manipulating the flat band degeneracy and thus getting the correlated insulating phases has been an ideal thread for realizing the exotic quantum phenomenon in the moiré system. To achieve this goal, the delicately tuned twist angle and a substantial displacement field (D) are rigorously requested. Here, we report our scanning tunneling microscope (STM) work on reaching these correlated insulating states in twisted monolayer-bilayer graphene through a decorated tip. It acts as a local top gate, leading to an enhanced local D, and enables us to fully lift the 8-fold degeneracy of the flat bands. With the aid of this technique, we further expand the correlated insulating states into a more tolerant twist angle that is down to 0.92°. Moreover, the correlated insulating phases in the hole-doping regime are realized. Our tip decoration method allows us to integrate the STM study with the high displacement field for the correlated phases in the twisted moiré systems.