Engineering & Materials Science
High electron mobility transistors
100%
Gallium nitride
74%
Hot Temperature
73%
Energy gap
64%
Gallium
60%
Temperature
46%
Thermal conductivity
44%
Infrared imaging
42%
Heating
41%
Temperature control
38%
Electronic equipment
38%
Thermal management (electronics)
34%
Oxides
34%
Power electronics
32%
Electric fields
30%
Substrates
27%
Raman spectroscopy
27%
Light emitting diodes
26%
Field effect transistors
26%
Semiconductor materials
21%
Electrodes
20%
MEMS
20%
Electrolytes
19%
Aluminum nitride
19%
Thin films
19%
Heat generation
18%
Fuel cells
18%
Radio frequency amplifiers
16%
Phonons
16%
Metals
16%
Indium
16%
Diamonds
15%
Diodes
15%
Wide band gap semiconductors
15%
Polymers
14%
Metallorganic vapor phase epitaxy
13%
Sapphire
12%
Power amplifiers
12%
Nanomechanics
12%
Proton irradiation
11%
Organic field effect transistors
11%
Heat resistance
10%
Hafnium
10%
Scandium
10%
Photonic devices
10%
Energy dissipation
10%
Electric current measurement
10%
Ohmic contacts
10%
Schottky barrier diodes
10%
Chemical Compounds
Thermometry
71%
Electron Mobility
54%
Thermal Conductivity
52%
Nitride
51%
Heat
30%
Band Gap
27%
Electric Field
25%
Thermal Resistance
23%
Dissipation
23%
Application
19%
Semiconductor
19%
Cooling
18%
Oxide
18%
Aluminium Nitride
18%
Field Effect
18%
Simulation
17%
Phonon
15%
Voltage
14%
Behavior as Electrode
12%
Plate Like Crystal
10%
Liquid Film
9%
Residual Stress
8%
Dielectric Material
8%
Pentacene
8%
Hafnium Atom
8%
Length
8%
Strength
7%
Reflectivity
7%
Industry
7%
Weight
7%
Nanofiber
5%
LO Phonon
5%
Composite Material
5%
Metal
5%
Butyric Acid
5%
Surface Temperature
5%
Monolayer
5%
Illumination
5%
Physics & Astronomy
high electron mobility transistors
58%
field effect transistors
27%
gallium nitrides
23%
heating
21%
thermal conductivity
18%
Raman spectroscopy
17%
characterization
17%
p-i-n diodes
17%
temperature measurement
17%
temperature
14%
residual stress
13%
electronics
12%
aluminum nitrides
12%
gallium oxides
12%
diamonds
12%
operating temperature
10%
output
10%
heat generation
9%
electron gas
9%
polarization modulation
8%
transistors
8%
electric contacts
8%
performance
8%
stress analysis
8%
fins
8%
diodes
7%
thermal analysis
7%
stress distribution
7%
Schottky diodes
7%
vapor phase epitaxy
7%
high strength
6%
temperature distribution
6%
electric fields
6%
electrodes
6%
conductivity
6%
degradation
6%
modulation
6%
spatial resolution
6%
domain wall
6%
thermodynamic properties
6%
germanium
5%
phonons
5%
thermal mapping
5%
transducers
5%
light emitting diodes
5%
thin films
5%
nanoparticles
5%
metals
5%
retarding
5%
ultrasonics
5%