ABSTRACT
This research proposal presents an experimental framework for realizing correlated states in twisted rhombohedral graphite heterostructures, targeting quantum anomalous Hall states and topological quantum computing applications.
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Key findings
Twisted rhombohedral graphite offers intrinsic flat bands and topological protection for studying correlated electronic phenomena.
Optimized dry-transfer techniques and precise twist-angle control enable access to a rich phase diagram.
High-Chern-number quantum anomalous Hall insulators and electrically tunable correlated insulating states are anticipated.
Limitations & open questions
The research is at the proposal stage and actual experimental results are pending.