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Article Dans Une Revue Optics Express Année : 2017

Full control of far-field radiation via photonic integrated circuits decorated with plasmonic nanoantennas

Résumé

We theoretically develop a hybrid architecture consisting of photonic integrated circuit and plasmonic nanoantennas to fully control optical far-field radiation with unprecedented flexibility. By exploiting asymmetric and lateral excitation from silicon waveguides, single gold nanorod and cascaded nanorod pair can function as component radiation pixels, featured by full 2π phase coverage and nanoscale footprint. These radiation pixels allow us to design scalable on-chip devices in a wavefront engineering fashion. We numerically demonstrate beam collimation with 30° out of the incident plane and nearly diffraction limited divergence angle. We also present high-numerical-aperture (NA) beam focusing with NA ≈0.65 and vector beam generation (the radially-polarized mode) with the mode similarity greater than 44%. This concept and approach constitutes a designable optical platform, which might be a future bridge between integrated photonics and metasurface functionalities.

Dates et versions

hal-02351555 , version 1 (06-11-2019)

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Yi-Zhi Sun, Li-Shuang Feng, Renaud Bachelot, Sylvain Blaize, Wei Ding. Full control of far-field radiation via photonic integrated circuits decorated with plasmonic nanoantennas. Optics Express, 2017, 25 (15), pp.17417. ⟨10.1364/OE.25.017417⟩. ⟨hal-02351555⟩

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