Cryogenic shock exfoliation yields large rhombohedral graphene devices over 1300 square micrometers with 90% fabrication yield, mean free path exceeding 200 micrometers, and signatures of electron hydrodynamics.
Flat band surface state superconductivity in thick rhombohe- dral graphene
6 Pith papers cite this work. Polarity classification is still indexing.
years
2026 6verdicts
UNVERDICTED 6representative citing papers
A minimal hydrodynamic model predicts an anomalous Hall voltage that switches on below Tc in a chiral superconductor due to persistent quasiparticle current in an open-circuit bilayer setup.
NanoSQUID magnetometry visualizes orbital magnetism in rhombohedral multilayer graphene, showing finite orbital moment in the superconducting state and density-tuned magnetic domain switching in the metallic regime.
Nonuniform near-surface electrostatic potentials flatten surface bands in rhombohedral graphite at zero displacement field, enabling flat-band regimes in thick samples via self-consistent calculations.
Multiple superconducting phases observed in rhombohedral heptalayer graphene at low displacement fields, with one robust zero-resistance state arising from a half-metallic normal state.
Experimental discovery of a family of high-Chern-number orbital magnets in twisted (1+n) rhombohedral graphene with observed topological hierarchy C = n for n=3,4,5.
citing papers explorer
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Anomalous Hall Effect Driven by Chiral Superconductivity
A minimal hydrodynamic model predicts an anomalous Hall voltage that switches on below Tc in a chiral superconductor due to persistent quasiparticle current in an open-circuit bilayer setup.