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W2266103626 abstract "We study the transfer of electromagnetic energy across a subwavelength gap separating two co-axial metal nanorodes. The absence of spacer in the gap separating the rods the system exhibits the strong coupling between longitudinal plasmons in the two rods. The nature and magnitude of this coupling is studied by varying various geometrical parameters. When the length of one rod is varied this mode spectrum exhibits the familiar anti-crossing behavior that depends on the coupling strength determined by the gap width. As a function of frequency the transmission is dominated by a splitted longitudinal plasmon peak. The two hybrid modes are the dipole-like bonding mode characterized by a peak intensity in the gap, and a quadrupole-like antibonding mode whose amplitude vanishes at the gap center. When off-resonant $2-$level emitters are placed in the gap, almost no effect on the frequency dependent transmission is observed. In contrast, when the molecular system is resonant with the plasmonic lineshape, the transmission is strongly modified, showing characteristics of strong exciton-plasmon coupling, modifying mostly the transmission near the lower frequency bonding plasmon mode. The presence of resonant molecules in the gap affects not only the molecule-field interaction but also the spatial distribution of the field intensity and the electromagnetic energy flux across the junction." @default.
W2266103626 created "2016-06-24" @default.
W2266103626 creator A5022522110 @default.
W2266103626 creator A5035641566 @default.
W2266103626 date "2016-04-14" @default.
W2266103626 modified "2023-10-10" @default.
W2266103626 title "Plasmon transmission through excitonic subwavelength gaps" @default.
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W2266103626 doi "https://doi.org/10.1063/1.4945446" @default.
W2266103626 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27083741" @default.
W2266103626 hasPublicationYear "2016" @default.