Engineering & Materials Science
Thermal conductivity
100%
Phonons
86%
Hot Temperature
65%
Thin films
39%
Diamonds
31%
Phonon scattering
30%
Substrates
24%
Metals
24%
Graphene
22%
Ferroelectric thin films
22%
Thermal management (electronics)
21%
Temperature
19%
Energy gap
19%
High electron mobility transistors
18%
Electric network analyzers
17%
Membranes
16%
Silicon
15%
Photodiodes
15%
Electron-phonon interactions
13%
Single crystals
12%
Characterization (materials science)
11%
Superlattices
11%
Semiconductor materials
11%
Plasmas
11%
Electron scattering
11%
Gallium nitride
11%
Quantum cascade lasers
11%
Oxides
11%
Proton irradiation
11%
Gases
10%
Indium phosphide
10%
Calibration
10%
Metal-Organic Frameworks
10%
Nonmetals
10%
Seebeck coefficient
10%
Glass
10%
Scandium
10%
Thermal energy
9%
Radio frequency amplifiers
9%
Sapphire
9%
Domain walls
9%
Hot electrons
9%
Temperature control
9%
Aluminum nitride
9%
Carrier concentration
9%
Strontium
8%
Power electronics
8%
Frequency bands
8%
Chemical Compounds
Thermal Conductivity
87%
Phonon
67%
Conductance
39%
Diamond
21%
Thermoelectricity
17%
Ferroelastic Domain
17%
Nitride
15%
Electron Mobility
15%
Graphene
13%
Liquid Film
12%
Metal
12%
Thermal Resistance
11%
Semiconductor
11%
Gas
10%
Electron Scattering
10%
Electron-Phonon Interaction
10%
Indium Phosphide
9%
Band Gap
9%
Energy
9%
Application
9%
Contact Resistance
9%
Thermometry
9%
Hot Electron
9%
Voltage
8%
Simulation
8%
Chemical Deposition
8%
Seebeck Coefficient
8%
Nonmetal
7%
Electric Field
7%
Boiling Point
6%
Resistance
6%
Oxide
6%
Heat
6%
Exfoliation
6%
Superlattice
6%
Ambient Reaction Temperature
6%
Nucleation
6%
Interfacial Energy
6%
Dissipation
5%
Chemical Vapour Deposition
5%
Dielectric Material
5%
Metal Organic Framework
5%
Metallorganic Chemical Vapour Deposition
5%
Compound Mobility
5%
Reflection
5%
Physics & Astronomy
thermal conductivity
60%
phonons
46%
thin films
31%
thermal analysis
19%
aluminum nitrides
18%
scattering
17%
photodiodes
17%
heat
15%
diamonds
15%
rectification
13%
chips
12%
metals
12%
thermodynamic properties
12%
superlattices
12%
crossovers
11%
gold
11%
temperature
11%
graphene
10%
solid state
9%
sinking
9%
electrons
8%
grain size
8%
electron phonon interactions
8%
rectifiers
7%
analyzers
7%
silicon
7%
microstructure
7%
high electron mobility transistors
7%
vapors
7%
lead zirconate titanates
7%
in situ measurement
7%
barium titanates
7%
heating
6%
temperature effects
6%
Schottky diodes
6%
hot electrons
6%
surface reactions
6%
gases
6%
characterization
6%
output
6%
room temperature
6%
oxides
6%
ballistics
6%
silicates
6%
mean free path
6%
surface energy
6%
electron scattering
6%
performance
5%
fractals
5%
bandwidth
5%