Add to ORKGnews & views Plasmons are collective oscillations of free electrons in the conduction band of metals. Their optical properties are readily derived from Maxwell’s equations by plugging in bulk metal-optics parameters. Yet, it is intuitive that the classical picture must go wrong at the atomic scale, and indeed recent advances in nanofabrication have pushed Maxwell’s description to the limit, although direct observations of quantum effects in plasmonic nanostructures have remaine
The fully atomistic model, ωFQ, based on textbook concepts (Drude theory, electrostatics, quantum tu...
Electrons and photons can coexist as a single entity called a surface plasmon—an elementary excitati...
he interaction of light with metal nanoparticles leads to the appear-ance of localized surface plasm...
Optical properties of metal nanostructures are the basis of several scientific and technological app...
Excitation of localized surface plasmon resonances in metal nanoparticles and nanoparticle assemblie...
Plasmonics, an important branch of nanooptics, has seen its prosperous development and exciting appl...
We push the fabrication limit of gold nanostructures to the exciting sub-nanometer regime, in which ...
The optical properties of fcc metal (gold and silver) nanos-tructures have recently been the focus o...
In recent years, we have witnessed a flurry of activity in the fundamental research and development ...
Quantum plasmonics is an exciting subbranch of nanoplasmonics where the laws of quantum theory are u...
Thesis (Ph.D.)--University of Washington, 2017-03Coherent and collective charge oscillations in meta...
Nanoplasmonics is a young topic of research, which is part of nanophotonics and nano-optics. Nanopla...
Plasmonics is the study of collective electron oscillation. This field has a large variety of applic...
This book introduces the fascinating world of plasmonics and physics at the nanoscale, with a focus ...
Plasmonic resonators are nanosized metallic antennas that convert electromagnetic waves at optical f...
The fully atomistic model, ωFQ, based on textbook concepts (Drude theory, electrostatics, quantum tu...
Electrons and photons can coexist as a single entity called a surface plasmon—an elementary excitati...
he interaction of light with metal nanoparticles leads to the appear-ance of localized surface plasm...
Optical properties of metal nanostructures are the basis of several scientific and technological app...
Excitation of localized surface plasmon resonances in metal nanoparticles and nanoparticle assemblie...
Plasmonics, an important branch of nanooptics, has seen its prosperous development and exciting appl...
We push the fabrication limit of gold nanostructures to the exciting sub-nanometer regime, in which ...
The optical properties of fcc metal (gold and silver) nanos-tructures have recently been the focus o...
In recent years, we have witnessed a flurry of activity in the fundamental research and development ...
Quantum plasmonics is an exciting subbranch of nanoplasmonics where the laws of quantum theory are u...
Thesis (Ph.D.)--University of Washington, 2017-03Coherent and collective charge oscillations in meta...
Nanoplasmonics is a young topic of research, which is part of nanophotonics and nano-optics. Nanopla...
Plasmonics is the study of collective electron oscillation. This field has a large variety of applic...
This book introduces the fascinating world of plasmonics and physics at the nanoscale, with a focus ...
Plasmonic resonators are nanosized metallic antennas that convert electromagnetic waves at optical f...
The fully atomistic model, ωFQ, based on textbook concepts (Drude theory, electrostatics, quantum tu...
Electrons and photons can coexist as a single entity called a surface plasmon—an elementary excitati...
he interaction of light with metal nanoparticles leads to the appear-ance of localized surface plasm...