Engineering & Materials Science
Spin orbit coupling
54%
Superlattices
37%
Electrons
30%
Spin polarization
29%
Two dimensional electron gas
20%
Semiconductor quantum wells
19%
Carrier concentration
19%
Charge carriers
18%
Band structure
17%
Spin Hall effect
16%
Ballistics
14%
Magnetic fields
13%
Surface states
13%
Orbits
13%
Heterojunctions
12%
Doping (additives)
10%
Electrostatics
10%
Geometry
8%
Induced currents
8%
Electron energy levels
7%
Galvanomagnetic effects
7%
Interferometers
7%
Capacitance
7%
Scattering
7%
Graphene nanoribbon
7%
Charge transfer
6%
Green's function
6%
Fermions
6%
Modulation
6%
Point contacts
6%
Boron nitride
6%
Transport properties
6%
Electrodes
5%
Monolayers
5%
Magnetoresistance
5%
Chirality
5%
Magnetic moments
5%
Magnetization
5%
Wire
5%
Photocurrents
5%
Hamiltonians
5%
Wave functions
5%
Physics & Astronomy
graphene
100%
ballistics
25%
superlattices
25%
orbits
21%
oscillations
16%
p-n junctions
15%
electron gas
13%
electrons
13%
magnetic fields
13%
precession
13%
electron optics
10%
charge carriers
10%
snakes
10%
tuning
9%
electrostatics
9%
valleys
8%
formalism
8%
interference
8%
cavities
8%
simulation
7%
trajectories
7%
fermions
6%
polarization
6%
boron nitrides
6%
capacitance
6%
modulation
5%
symmetry
5%
Hall effect
5%
quantum wells
5%
Chemical Compounds
Graphene
68%
Electron Spin
49%
Spin-Orbit Coupling
32%
Superlattice
26%
Quantum Transport
19%
Conductance
17%
Magnetic Field
17%
Electron Particle
15%
Two-Dimensional Electron Gas
15%
Spin Polarization
14%
Charge Carrier
13%
Electronic Band Structure
12%
Simulation
10%
Surface State
9%
Nonequilibrium
8%
Hexagonal Space Group
7%
Fermion
6%
Magnetic Impurity
6%
Monolayer
6%
Wave
5%
Tunneling
5%
Strength
5%
Hall Effect
5%
Magnetization
5%
Nanoribbon
5%