2013-02-26
Resonant modes of single silicon nanocavities excited by electron irradiation
Publication
Publication
ACS Nano , Volume 7 - Issue 2 p. 1689- 1698
High-index dielectric or semiconductor nanoparticles support strong Mie-like geometrical resonances in the visible spectral range. We use 30 keV angle-resolved cathodoluminescence imaging spectroscopy to excite and detect these resonant modes in single silicon nanocylinders with diameters ranging from 60 - 350 nm. Resonances are observed with wavelengths in the range 400 - 700 nm, with quality factors in the range Q = 9 - 77, and show a strong redshift with increasing cylinder diameter. The photonic wavefunction of all modes is determined at deep-subwavelength resolution and shows good correspondence with numerical simulations. An analytical model is developed that describes the resonant Mie-like optical eigenmodes in the silicon cylinders using an effective index of a slab waveguide mode. It shows good overall agreement with the experimental results and enables qualification of all resonances with azimuthal (m = 0 - 4) and radial (q = 1 - 4) quantum numbers. The single resonant Si nanocylinders show characteristic angular radiation distributions in agreement with the modal symmetry.
Additional Metadata | |
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ACS | |
E.C. Garnett (Erik) | |
doi.org/10.1021/nn3056862 | |
ACS Nano | |
Organisation | Photonic Materials |
Coenen, T., van de Groep, J., & Polman, A. (2013). Resonant modes of single silicon nanocavities excited by electron irradiation. ACS Nano, 7(2), 1689–1698. doi:10.1021/nn3056862 |