Engineering
Plasmonics
100%
Infrared Absorption
44%
Nanowires
33%
Material System
33%
Local Property
33%
High Aspect Ratio
33%
Laser Irradiation
22%
Cross Section
22%
Absorption Cross
11%
Remote Control
11%
Waveguide
11%
Energy Engineering
11%
Accurate Simulation
11%
Guide Surface
11%
Potential Energy
11%
Graphene
11%
Numerical Methods
11%
Limitations
11%
Surface Plasmon
11%
Nanoparticles
11%
Joints (Structural Components)
11%
Polarizability
11%
Fabry Perot
11%
Sensing Device
11%
Electronic Excitation
11%
Spectral Range
11%
Transmissions
11%
Field Enhancement
11%
Metallic Nanoparticles
11%
Hydrodynamics
11%
Optical Power
11%
Spatial Resolution
11%
Electron Energy
11%
Energy Dissipation
11%
Dielectrics
11%
Biomedical Application
11%
Degree of Freedom
11%
Numerical Approach
11%
Computational Time
11%
Mesoscale
11%
Energy Surface
11%
INIS
surfaces
100%
spectroscopy
66%
absorption
37%
nanostructures
35%
modifications
33%
plasmons
27%
molecules
27%
chemistry
20%
interfaces
20%
design
20%
graphene
20%
precision
20%
computer codes
20%
resonance
20%
atoms
16%
simulation
11%
cross sections
10%
remote control
8%
electrons
7%
accuracy
7%
data
7%
trace amounts
6%
origin
6%
transparency
6%
dipoles
6%
approximations
6%
models (functional)
6%
nanoparticles
6%
interactions
6%
detection
6%
Keyphrases
Principle Calculation
33%
Surface-enhanced Spectroscopy
33%
Second Principle
33%
Gold Nanostructures
33%
Tip-enhanced Raman
33%
Gold Nanowires
22%
Picocavity
16%
Guide Surface
16%
Surface-enhanced Vibrational Spectroscopy
16%
Induced Transparency
11%
Localized Plasmons
11%
Fabry-Perot
11%
Dumbbell
11%
Nanophotonic Waveguides
11%
Surface Plasmon Response
11%
Remote Control
11%
Selective Tuning
11%
Monochromated Electron Energy-loss Spectroscopy
11%
Dumbbell Structures
11%
Science Methods
8%
Parameterized Approach
8%
Born-Oppenheimer
8%
Basic Physics
8%
Quantum Materials
8%
Applied Electromagnetics
8%
Electronic Degrees of Freedom
8%
Atomic Vibrations
8%
Mesoscale Systems
8%
Raman Frequency
8%
Simplified Treatment
8%
Unified Method
8%
Unique Identifier
8%
Plasmonic Systems
8%