Add to ORKGElectrons and photons can coexist as a single entity called a surface plasmon—an elementary excitation found at the interface between a conductor and an insulator. Because of their hybrid electric and photonic nature, plasmons allow photons to be precisely controlled on the nanoscale. Plasmons are evident in the vivid hues of rose windows, which derive their color from small metallic nanoparticles embedded in the glass. They also provide the basis for color-changing biosensors (such as home pregnancy tests), photothermal cancer treatments, improved photovoltaic cell efficiencies, and nanoscale lasers. While surface plasmons were first identified nearly 55 years ago, many of their exciting applications are yet to come. This issue of MRS Bull...
Metallodielectric nanostructures are enabling a revolution in optics. For centuries optical techniqu...
Presented on September 8, 2015 at 12 noon in the Pettit Microelectronics Building Conference Room 10...
We review the basic physics of surface-plasmon excitations occurring at metal/dielectric interfaces ...
In recent years, we have witnessed a flurry of activity in the fundamental research and development ...
Plasmonics, an important branch of nanooptics, has seen its prosperous development and exciting appl...
Plasmonics has provided researchers new means to control optical dispersion and light localization a...
Plasmonics has provided researchers new means to control optical dispersion and light localization a...
Nanoplasmonics is an area that uses light to couple electrons in metals, and can break the diffracti...
Nanoplasmonics is a young topic of research, which is part of nanophotonics and nano-optics. Nanopla...
The development of advanced dielectric photonic structures has enabled tremendous control over the p...
Plasmonics is a rapidly developing field that combines fundamental research and applications ranging...
Nanophotonics has greatly benefited from the unique ability of surface plasmons to confine optical mo...
Metallodielectric nanostructures are enabling a revolution in optics. For centuries optical techniqu...
During his lecture entitled “ There is plenty of room at the bottom ”, Richard Feyn- man foresaw the...
Understanding how light-matter interactions can be enhanced is the central theme of much of solid s...
Metallodielectric nanostructures are enabling a revolution in optics. For centuries optical techniqu...
Presented on September 8, 2015 at 12 noon in the Pettit Microelectronics Building Conference Room 10...
We review the basic physics of surface-plasmon excitations occurring at metal/dielectric interfaces ...
In recent years, we have witnessed a flurry of activity in the fundamental research and development ...
Plasmonics, an important branch of nanooptics, has seen its prosperous development and exciting appl...
Plasmonics has provided researchers new means to control optical dispersion and light localization a...
Plasmonics has provided researchers new means to control optical dispersion and light localization a...
Nanoplasmonics is an area that uses light to couple electrons in metals, and can break the diffracti...
Nanoplasmonics is a young topic of research, which is part of nanophotonics and nano-optics. Nanopla...
The development of advanced dielectric photonic structures has enabled tremendous control over the p...
Plasmonics is a rapidly developing field that combines fundamental research and applications ranging...
Nanophotonics has greatly benefited from the unique ability of surface plasmons to confine optical mo...
Metallodielectric nanostructures are enabling a revolution in optics. For centuries optical techniqu...
During his lecture entitled “ There is plenty of room at the bottom ”, Richard Feyn- man foresaw the...
Understanding how light-matter interactions can be enhanced is the central theme of much of solid s...
Metallodielectric nanostructures are enabling a revolution in optics. For centuries optical techniqu...
Presented on September 8, 2015 at 12 noon in the Pettit Microelectronics Building Conference Room 10...
We review the basic physics of surface-plasmon excitations occurring at metal/dielectric interfaces ...