Engineering
Temperature Gradient
100%
Temperature Range
100%
Hole Pair
100%
Schottky Barrier
100%
Laser Illumination
100%
Pulse Duration
50%
External Surface
50%
High Temperature Gradient
50%
Heterojunctions
50%
Charge Carrier
50%
Nonequilibrium
50%
Semiconductor Material
50%
Electronic Charge
50%
Energy Gap
50%
Temperature Increase
50%
Peak Value
50%
Laser Power
50%
Seebeck Coefficient
50%
Photovoltaic Effect
50%
Free Electron
50%
Local Heating
50%
Low Thermal Conductivity
50%
Metallic Contact
50%
Special Interest
50%
Ohmic Contacts
50%
Keyphrases
CO2 Laser
100%
PbTe
100%
Laser Illumination
100%
Thermovoltaic Effect
100%
Laser Pulse
42%
Temperature Gradient
28%
Electron-hole Pair
28%
P-n Junction
28%
P-type
28%
Schottky Barrier
28%
Potential Barrier
28%
Low Thermal Conductivity
14%
Semiconductors
14%
Temperature Difference
14%
Pulse Duration
14%
Temperature Range
14%
External Surface
14%
Seebeck Coefficient
14%
Temperature Rise
14%
Wide Temperature Range
14%
High Temperature Gradient
14%
IR Laser
14%
Heterojunction
14%
Semiconductor Materials
14%
Illumination Area
14%
Two-component
14%
Metal-semiconductor-metal
14%
Charge Carriers
14%
Electronic Charge
14%
Energy Gap
14%
Local Temperature
14%
Effect Measurement
14%
Local Heating
14%
Laser Power
14%
Laser Source
14%
Cold Region
14%
Photovoltaic Effect
14%
Far-IR
14%
Metallic Contacts
14%
Free Electrons
14%
Pulse Intensity
14%
Thermovoltage
14%
Ohmic Contact
14%
Carrier Separation
14%
Non-equilibrium Electrons
14%
Optical Cryostats
14%
PanD
14%
Physics
Temperature Gradients
100%
Laser Pulse
100%
Carbon Dioxide Laser
100%
Holes (Electron Deficiencies)
66%
Potential Barrier
66%
Heterojunctions
33%
Semiconductor (Material)
33%
Laser Source
33%
Photovoltaic Effect
33%
Thermal Conductivity
33%
Infrared Laser
33%
Free Electron
33%
Seebeck Effect
33%
Cryostat
33%
Material Science
Carbon Dioxide
100%
Laser Pulse
100%
Schottky Barrier
66%
Thermal Conductivity
33%
Heterojunction
33%
Charge Carrier
33%
Semiconductor Material
33%
Laser Source
33%
Photovoltaic Effect
33%