A timed-Dicke state of emitters hybridizes with a delocalized surface-plasmon mode to form a directional plasmon-polariton that shows Rabi oscillations, normal-mode splitting, three distinct decay regimes via Lyapunov analysis, and anticrossing in the emission spectrum from quantum vacuum effects.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
A hybrid cavity combining a plasmonic nanoresonator inside a dielectric cavity enables indistinguishable photon generation from dephased emitters with much lower dielectric Q factors and 12x higher collection efficiency.
citing papers explorer
-
Collective light-matter interaction in plasmonic waveguide quantum electrodynamics
A timed-Dicke state of emitters hybridizes with a delocalized surface-plasmon mode to form a directional plasmon-polariton that shows Rabi oscillations, normal-mode splitting, three distinct decay regimes via Lyapunov analysis, and anticrossing in the emission spectrum from quantum vacuum effects.
-
Indistinguishablity from dephased emitters using combined plasmonic-dielectric cavities
A hybrid cavity combining a plasmonic nanoresonator inside a dielectric cavity enables indistinguishable photon generation from dephased emitters with much lower dielectric Q factors and 12x higher collection efficiency.