Active plasmonics: principles, structures, and applications
Active plasmonics is a burgeoning and challenging subfield of plasmonics. It exploits the
active control of surface plasmon resonance. In this review, a first-ever in-depth description …
active control of surface plasmon resonance. In this review, a first-ever in-depth description …
Chirality and chiroptical effects in metal nanostructures: fundamentals and current trends
JT Collins, C Kuppe, DC Hooper… - Advanced Optical …, 2017 - Wiley Online Library
Throughout the 19th and 20th century, chirality has mostly been associated with chemistry.
However, while chirality can be very useful for understanding molecules, molecules are not …
However, while chirality can be very useful for understanding molecules, molecules are not …
Synergistic effects of plasmonics and electron trapping in graphene short-wave infrared photodetectors with ultrahigh responsivity
Graphene's unique electronic and optical properties have made it an attractive material for
developing ultrafast short-wave infrared (SWIR) photodetectors. However, the performance …
developing ultrafast short-wave infrared (SWIR) photodetectors. However, the performance …
Fano resonance in novel plasmonic nanostructures
M Rahmani, B Luk'yanchuk… - Laser & Photonics …, 2013 - Wiley Online Library
Recently, a large number of experimental and theoretical works have revealed a variety of
plasmonic nanostructures with the capabilities of Fano resonance (FR) generation. Among …
plasmonic nanostructures with the capabilities of Fano resonance (FR) generation. Among …
Plasmonic optical and chiroptical response of self-assembled Au nanorod equilateral trimers
NJ Greybush, V Pacheco-Peña, N Engheta… - ACS …, 2019 - ACS Publications
Assembling metamolecules from anisotropic, shape-engineered nanocrystals provides the
opportunity to orchestrate distinct optical responses one nanocrystal at a time. The Au …
opportunity to orchestrate distinct optical responses one nanocrystal at a time. The Au …
Self-assembly of colloidal inorganic nanocrystals: nanoscale forces, emergent properties and applications
The self-assembly of colloidal nanoparticles has made it possible to bridge the nanoscopic
and macroscopic worlds and to make complex nanostructures. The nanoparticle-mediated …
and macroscopic worlds and to make complex nanostructures. The nanoparticle-mediated …
Extraordinary optical fields in nanostructures: from sub-diffraction-limited optics to sensing and energy conversion
Along with the rapid development of micro/nanofabrication technology, the past few decades
have seen the flourishing emergence of subwavelength-structured materials and interfaces …
have seen the flourishing emergence of subwavelength-structured materials and interfaces …
The dark side of plasmonics
Plasmonic dark modes are pure near-field modes that can arise from the plasmon
hybridization in a set of interacting nanoparticles. When compared to bright modes, dark …
hybridization in a set of interacting nanoparticles. When compared to bright modes, dark …
Polarization-independent multiple Fano resonances in plasmonic nonamers for multimode-matching enhanced multiband second-harmonic generation
Plasmonic oligomers composed of metallic nanoparticles are one class of the most
promising platforms for generating Fano resonances with unprecedented optical properties …
promising platforms for generating Fano resonances with unprecedented optical properties …
Experimental Verification of the Spectral Shift between Near-and Far-Field Peak Intensities<? format?> of Plasmonic Infrared Nanoantennas
Theory predicts a distinct spectral shift between the near-and far-field optical response of
plasmonic antennas. Here we combine near-field optical microscopy and far-field …
plasmonic antennas. Here we combine near-field optical microscopy and far-field …