Matthew Gilbert

20002019
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Engineering & Materials Science

Graphene
Ballistics
Semiconductor quantum wires
Nanowires
Transistors
Doping (additives)
Metalloids
Semiconductor devices
Superconducting materials
Physics
Silicon
Fermions
Semiconductor materials
Hamiltonians
Nanoelectronics
Surface states
Energy gap
Vortex flow
Electrons
Excitons
Scattering
Crystal symmetry
Electric potential
Superconductivity
Phase transitions
Chemical potential
Point groups
Heterojunctions
Field effect transistors
Inelastic scattering
Superfluid helium
Threshold voltage
Integrated circuits
Green's function
Waveguides
Temperature
Nanostructures
MOSFET devices
Quantum Hall effect
Resonant tunneling
Logic devices
Spin polarization
Phonon scattering
Carrier concentration
Nanomagnetics
Atoms
Nanophotonics
Thermal effects
Clocks
Point contacts

Physics & Astronomy

General

insulators
simulation
waveguides
Green's functions
proximity
vortices
interference
energy
crossovers
electronics
inversions
mirrors
recovery
S matrix theory
quantum computation
interactions
Josephson effect

Physics

ballistics
fermions
electrons
electric potential
momentum
excitons
physics
atoms
threshold voltage

Engineering

nanowires
transistors
quantum wires
field effect transistors
graphene
superconductivity
metal oxide semiconductors
narrowband
scattering
interlayers
semiconductor devices
Hall effect
torque
filters
signatures
diodes
electrodynamics

Chemistry and Materials

metalloids
silicon
condensates
wire

Mathematical and Computer Sciences

symmetry

Life Sciences

disorders
temperature effects

Chemical Compounds

Graphite
Superconducting materials
Ballistics
Metalloids
Nanowires
Fermions
Surface states
Superconductivity
Hamiltonians
Transistors
Crystal symmetry
Chemical potential
Phase transitions
Physics
Silicon
Semiconductor devices
Point groups
Heterojunctions
Semiconductor quantum wires
Energy gap
Doping (additives)
Semiconductor materials
Nanoelectronics
Nanostructures
Electric potential
Scattering
Quantum Hall effect
Vortex flow
Green's function
Momentum
Magnetic fields
Thermal effects
Integrated circuits
Temperature
Electrons
Exchange coupling
Metals
Nanomagnetics
Torque
Condensation
Fermi level
Enhanced magnetoresistance
Topology
Mirrors
Electrodynamics
Ground state
Optical lattices
Waveguides
Spin density waves
Charge carriers