Beyond dipolar regime in high-order plasmon mode bowtie antennas
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Titre | Beyond dipolar regime in high-order plasmon mode bowtie antennas |
Type de publication | Journal Article |
Year of Publication | 2017 |
Auteurs | Cuche A, Viarbitskaya S, Kumar U, Sharma J, Arbouet A, Girard C, Dujardin E |
Journal | OPTICS COMMUNICATIONS |
Volume | 387 |
Pagination | 48-54 |
Date Published | MAR 15 |
Type of Article | Article |
ISSN | 0030-4018 |
Mots-clés | Antennas, colloids, High order mode, plasmonics, Two-Photon Luminescence |
Résumé | Optical nanoantennas have shown their great potential for far-field to near-field coupling and for light confinement in subwavelength volumes. Here, we report on a multimodal configuration for bright and polarization-dependent bowtie antenna based on large and highly crystalline gold prisms. Each individual prism constituting an antenna arm sustains high order plasmon modes in the visible and near infrared range that allow for high field confinement and two-dimensional optical information propagation. We demonstrate by scanning two-photon luminescence (TPL) microscopy and numerical simulations based on the Green dyadic method that these bowtie antennas result in intense hot spots in different antenna locations as a function of the incident polarization. Finally, we quantify the local field enhancement above the antennas by computing the normalized total decay rate of a molecular system placed in the near field of the antenna gap as a function of the dipole orientation. We demonstrate the existence of a subtle relation between antenna geometry, polarization dependence and field enhancement. These new multimodal optical antennas are excellent far field to near field converter and they open the door for new strategies in the design of coplanar optical components for a wide range of applications including sensing, energy conversion or integrated information processing. |
DOI | 10.1016/j.optcom.2016.11.013 |