A theoretical study of screened plasmons in modulated graphene on metal reveals nontrivial topological bands with quantized geometric phase and tunable edge states in finite systems.
Alonso Calafell, J
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
verdicts
UNVERDICTED 2representative citing papers
Cavity-mediated interaction plus self-energy renormalization in (1+2) Dirac QED produces enhanced momentum-resolved entanglement entropy and stationary Bell-like states when coherence time exceeds interlayer photon propagation time.
citing papers explorer
-
Screened topological plasmons in graphene plasmonic crystals
A theoretical study of screened plasmons in modulated graphene on metal reveals nontrivial topological bands with quantized geometric phase and tunable edge states in finite systems.
-
Entanglement (1+2) QED in a double layer of Dirac Materials
Cavity-mediated interaction plus self-energy renormalization in (1+2) Dirac QED produces enhanced momentum-resolved entanglement entropy and stationary Bell-like states when coherence time exceeds interlayer photon propagation time.