Novel double moiré system realized in a four-layer twist- controlled graphene structure
Twisted bilayer graphene at magic angle hosts flat bands, correlated insulators and superconductivity
Spatially separated flat bands can be realized in a twist-controlled four-layer graphene structure, where the twist between layers top two and bottom two layers is small, while the twist between layers 2 and 3 is intentionally kept large
Insulators observed when the Brillouin zones of individual top or bottom moiré are filled, provides evidence for spatially separated bands
Individual moiré near magic angle show correlated insulators
An electrostatic analysis of the resistance vs top and bottom gates provides the chemical potential vs filling factor of the flat bands
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Independently Tunable Flat Bands and Correlations in a Graphene Double Moiré System
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The Bioinspired Soft Materials Center
The Brandeis Materials Research Science and Engineering Center (MRSEC) seeks to create new materials that are constructed from only a few simplified components, yet capture the remarkable functionalities found in living organisms.