Details

Autor(en) / Beteiligte

• Zhang, Zuocheng
• Xie, Jingxu
• Zhao, Wenyu
• Qi, Ruishi
• Sanborn, Collin
• Wang, Shaoxin
• Kahn, Salman
• Watanabe, Kenji
• Taniguchi, Takashi
• Zettl, Alex
• Crommie, Michael
• Wang, Feng

Titel

Engineering correlated insulators in bilayer graphene with a remote Coulomb superlattice

Ist Teil von

• Nature materials, 2024-02, Vol.23 (2), p.189-195

Ort / Verlag

England: Nature Publishing Group

Erscheinungsjahr

2024

Quelle

Nature_系列刊

Beschreibungen/Notizen

• Electron superlattices allow the engineering of correlated and topological quantum phenomena. The recent emergence of moiré superlattices in two-dimensional heterostructures has led to exciting discoveries related to quantum phenomena. However, the requirement for the moiré pattern poses stringent limitations, and its potential cannot be switched on and off. Here, we demonstrate remote engineering and on/off switching of correlated states in bilayer graphene. Employing a remote Coulomb superlattice realized by localized electrons in twisted bilayer WS , we impose a Coulomb superlattice in the bilayer graphene with period and strength determined by the twisted bilayer WS . When the remote superlattice is turned off, the two-dimensional electron gas in the bilayer graphene is described by a Fermi liquid. When it is turned on, correlated insulating states at both integer and fractional filling factors emerge. This approach enables in situ control of correlated quantum phenomena in two-dimensional materials hosting a two-dimensional electron gas.