Quantitative analysis and near-field observation of strong coupling between plasmonic nanogap and silicon waveguides

We present a near field optical study of a plasmonic gap waveguide vertically integrated on silicon. The experimental study is based on a near field scanning optical microscope configured in perturbation mode. This operation mode is described and modeled to give a physical insight into the measured signal. A high spatial resolution allows for the characteristics of the plasmonic gap modes, such as near field distributions, effective indices, direction of propagation, and coupling between perpendicularly polarized modes, to be imaged and analyzed with accuracy. This experimental work is supported by numerical simulations based on finite element optical mode solvers and by the application of the strongly coupled-mode theory to the device

Mots clés

Wave propagation Waveguides Laser physics Optical imaging Polarizability Chemical elements Transition metals Electrodynamics Perturbation theory Plasmonics

Domaines

Optique [physics.optics]

Fichier principal

12_ApplPhysLett_Montiel.pdf (542.53 Ko)

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https://hal.science/hal-00993000

Soumis le : lundi 19 mai 2014-14:58:32

Dernière modification le : jeudi 4 avril 2024-21:20:11

Archivage à long terme le : lundi 10 avril 2017-23:46:20

Dates et versions

hal-00993000 , version 1 (19-05-2014)

Identifiants

HAL Id : hal-00993000 , version 1
DOI : 10.1063/1.4725511

Citer

Rafael Salas-Montiel, Aniello Apuzzo, Cécile Delacour, Zohreh Sedaghat, Aurélien Bruyant, et al.. Quantitative analysis and near-field observation of strong coupling between plasmonic nanogap and silicon waveguides. Applied Physics Letters, 2012, 100 (23), pp.231109. ⟨10.1063/1.4725511⟩. ⟨hal-00993000⟩

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