We work in experimental nonlinear and ultrafast nano-optics. This includes spatio-temporal optical control, optical antennas, surface plasmon and phonon polaritons, extreme nonlinear optics, and ...

optical antennas, surface plasmon and phonon polaritons, extreme nonlinear optics, strong light matter interaction. Scanning probe near-field optical microscopy and spectroscopy, optical forces, and ...

Diffraction of light prevents optical microscopes from having spatial ... nano-imaging of practical samples by using a localized surface plasmon mode at the tip of a metallic nanoprobe.

When such particles are suspended in a liquid, they settle on the bottom of the vessel forming so-called colloidal crystals that produce the required optical effects. Now Seiichi Furumi and ...

researchers can tailor their optical responses for specific applications, pushing the boundaries of what's possible in nanophotonics and beyond. Plasmons arise when a light wave strikes a metallic ...

More information: Weihan Li et al, An externally perceivable smart leaky-wave antenna based on spoof surface plasmon ...