| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1859375 | Physics Letters A | 2012 | 5 Pages |
Numerical results for the distributions of light transmitted through metallic planar lenses composed of symmetric nanogroove arrays on the surfaces of a gold film are presented and explained. Both the near- and far-field distributions of the intensity of light transmitted are calculated by using a Greenʼs function formalism. Results for an optimal transverse focus based on a quadratic variation of groove width are obtained. Meanwhile, a significant dependence of the focal length on the wavelength of light incident from the air side through the gold film into a dielectric substrate is found for this detector configuration.
► Wavelength-tunable focal distance of a planar metallic lens. ► Enhanced focusing power by a quadratic groove-width variation. ► Limited range of substrate refractive index for changing tunable focal distance. ► Important role of the groove-corner sharpness in shrinking spot longitudinal size. ► Important role of the number of grooves in shrinking spot transverse size.
