Engineering & Materials Science
Electronic properties
100%
Band structure
46%
Plasmons
44%
Magnetic fields
42%
Optical properties
37%
Electric fields
36%
Spintronics
34%
Energy gap
31%
Electronic structure
31%
Monolayers
31%
Absorption spectra
30%
Fermi level
27%
Nanotubes
26%
Graphene nanoribbon
25%
Dispersions
22%
Electron energy levels
21%
Wave functions
21%
Silicene
18%
Electrons
15%
Photoexcitation
15%
Light absorption
15%
Semiconductor materials
13%
Transition metals
12%
Momentum
11%
Conduction bands
11%
Atoms
11%
Adatoms
10%
Valence bands
10%
Intercalation compounds
10%
Magnetic flux
9%
Carbon
9%
Modulation
8%
Charge density
8%
Coulomb interactions
8%
Single-walled carbon nanotubes (SWCN)
7%
Temperature
7%
Quantum confinement
7%
Cones
7%
Transport properties
6%
Nanoribbons
6%
Doping (additives)
5%
Magnetic properties
5%
Spectroscopy
5%
Geometry
5%
Charge distribution
5%
Angular momentum
5%
Chemical Compounds
Graphene
61%
Density of State
51%
Landau Level
50%
Magnetic Field
39%
Electric Field
34%
Electronic Band Structure
33%
Energy
29%
Subband
29%
Plasmon
27%
Carbon Nanotube
25%
Nanoribbon
23%
Band Gap
22%
Optical Property
18%
Strength
17%
Monolayer
16%
Electronic State
15%
Metal-Semiconductor Transition
14%
Collective Excitation
14%
Selection Rule
14%
Nanotube
14%
Graphite
14%
Wave Function
13%
Armchair Carbon Nanotube
13%
Fermi Level
13%
Energy State
12%
Momentum
12%
Magnetic Flux
12%
Absorption Spectrum
11%
Random Phase Approximation
11%
Electronic Excitation
11%
Photoexcitation
10%
Conduction Band
9%
Dielectric Function
8%
Valence Band
8%
Magnetoplasmon
8%
Absorptivity
8%
Adatoms
7%
Rhombohedral Graphite
7%
Orbital
7%
Single Walled Nanotube
7%
Angular Momentum
7%
Charge Density
6%
Conductance
6%
Semiconductor
6%
Double Walled Nanotube
6%
Electron Particle
5%
Carbon Atom
5%
Magnetic Property
5%
Physics & Astronomy
graphene
88%
carbon nanotubes
57%
electronics
49%
plasmons
36%
graphite
32%
excitation
29%
ribbons
29%
electric fields
26%
nanotubes
26%
optical properties
21%
energy
21%
magnetic fields
21%
interlayers
20%
electronic structure
20%
absorption spectra
20%
optical spectrum
18%
energy bands
16%
low frequencies
15%
interactions
14%
wave functions
13%
toroids
13%
field strength
12%
carbon
11%
atomic interactions
10%
momentum
10%
optical absorption
10%
approximation
10%
magnetic flux
8%
symmetry
8%
spacing
8%
destruction
8%
radii
8%
modulation
8%
bundles
7%
electrons
7%
transition metals
7%
curvature
7%
orbitals
6%
cones
6%
electron gas
5%
geometry
5%
temperature
5%
gradients
5%
adatoms
5%
configurations
5%
shoulders
5%
transport properties
5%
angular momentum
5%
intercalation
5%
sublattices
5%
