Results 41 to 50 of about 242 (148)
Recent advances in nanophotonics‐based chiral biosensing approaches are comprehensively reviewed, highlighting key trends, advantages, and limitations of each technology. Special attention is given to emerging strategies that exploit magneto‐optical and quantum plasmonic phenomena to enhance sensitivity down to the level of a few molecules, or even a ...
Jorge Ricardo Mejía‐Salazar
wiley +1 more source
A significant interest in combining plasmonics and magnetism at the nanoscale gains momentum in both photonics and magnetism sectors that are concerned with the resonant enhancement of light-magnetic-matter interaction in nanostructures.
Ivan S. Maksymov
doaj +1 more source
Here, recent progress is highlighted in colloidal magnetoplasmonic hybrid nanomaterials, with a focus on chiral plasmonics. Metal nanocrystals with intrinsic chiroptical features can lead to a combination of chiral plasmonics and magneto‐optics effects when interacting with the magnetic counterpart, offering a foundation for systematically designing ...
Miguel Comesaña‐Hermo +4 more
wiley +1 more source
Resonant Edge Magnetoplasmons and Their Decay in Graphene [PDF]
We investigate resonant edge magnetoplasmons (EMPs) and their decay in graphene by high-frequency electronic measurements. From EMP resonances in disk shaped graphene, we show that the dispersion relation of EMPs is nonlinear due to interactions, giving rise to the intrinsic decay of EMP wave packets.
Kumada Norio +6 more
openaire +3 more sources
Chiral nano‐inorganics, free of organic chiral ligands, provide a novel platform to direct symmetry breaking in molecular systems, through inorganic‐to‐organic chirality transfer via enantiospecific inorganic–organic interactions, circularly polarized light, and electron spin‐driven enantiopreferential reactions governed by chiral‐induced spin ...
Tao Yao +3 more
wiley +1 more source
Pre‐magnetized TmIG/Pt achieves volatile circular dichroism (CD) control via current‐induced temperature gradients, without needing a magnetic field, particularly in the UV range due to the Laporte selection switch of the O(2p)→Fe(3d) and O(2p)→Tm(5d) optical transitions through Tm(4f)‐O(2p) interaction.
Wan‐Hsiu Chang Chien +9 more
wiley +1 more source
Active magnetoplasmonics for nanoscale distances sensing [PDF]
Magnetoplasmonics is an emerging field within nano-photonics that operates with the combination of propagating or localized surface plasmons and magnetism.
Zubritskaya, Irina
core
Optical Nanolinks With Yagi–Uda‐Loop and Dipole Antennas Fed by Gaussian Beam
This work presents a theoretical comparative analysis of wireless optical nanolinks with different cylindrical plasmonic nanoantennas fed by a Gaussian beam. The nanolinks considered are Yagi–Uda‐loop/dipole, Yagi–Uda/dipole and dipole/dipole, where the operating wavelength is λ = 1153 nm.
Paulo R. Amaral +2 more
wiley +1 more source
Current control of light by nonreciprocal magnetoplasmonics [PDF]
The ability to actively control light has long been a major scientific and technological goal. We proposed a scheme that allows for active control of light by utilizing the nonreciprocal magnetoplasmonic effect.
Li, Kang +4 more
core +4 more sources
Active plasmonic nanodevices: From basic principles to emerging applications
Tunable plasmonic devices with different external stimuli and their emerging applications in the last couple of years are introduced in this review. The basic principles along with the exemplified applications are discussed to reveal recent research trends and challenges of this vibrant field.
Chi Zhang, Tao Ding
wiley +1 more source

