Fig. 1: Plasmonic bowties coupled with quantum dots. aElectron micrograph of a plasmonic bowtie with QDs in its vicinity. The image is a color-coded superposition of elemental maps taken by EDS in the STEM. The color key is shown at the bottom of the image. The scale bar represents 50...
(sasaki@es. hokudai.ac.jp) Nanoscale interference patterns of gap-mode multipolar plasmonic fields Yoshito Tanaka, Akio Sanada & Keiji Sasaki Research Institute for Electronic Science, Hokkaido University, Sapporo 001-0020, Japan. Arbitrary spatial distributions of the electric field of light are ...
Background: A THz Plasmonic Waveguide Based on Graphene Coated Bow-tie Nanowire (TPW-GCBN) has been proposed. The waveguide characteristics are investigated by the Finite Element Method (FEM). The influence of the geometric parameters on propagation constants, electric field distributions, effective ...
Background: A THz Plasmonic Waveguide Based on Graphene Coated Bow-tie Nanowire (TPW-GCBN) has been proposed. The waveguide characteristics are investigated by the Finite Element Method (FEM). The influence of the geometric parameters on propagation constants, electric field distributions, effective ...
We report the first thermal study of a triple band plasmonic nanoantenna strongly coupled to a molecular mode at mid IR wavelength (MW IR). The hybrid plasmonic structure supports three spatially and spectrally variant resonances of which two are magneti