Keyphrases
Thermoelectric Properties
100%
Wide Band Gap Semiconductors
100%
Design Centering
100%
Modeling Framework
50%
University-industry
50%
Device Integration
50%
Device Architecture
50%
Device Technology
50%
Wide Bandgap
50%
Wide Bandgap Devices
50%
Thermal Resistance
25%
Laser-based
25%
Principal Investigator
25%
System Size
25%
Review Criteria
25%
Education Model
25%
Device Performance
25%
Electronic Devices
25%
Process Integration
25%
Thermal Engineering
25%
Modeling Results
25%
Diamond
25%
Beta Phase
25%
Active Area
25%
University Students
25%
Device-independent
25%
Performance Efficiency
25%
Interdisciplinary Education
25%
Educational Model
25%
Pump-probe Technique
25%
Electrical Design
25%
Technical Specification
25%
Energy Conversion
25%
Engineering Concepts
25%
Low-cost Manufacturing
25%
Device Industry
25%
Design Trade-offs
25%
Integration Method
25%
Harsh Environment
25%
Aluminum Gallium Nitride (AlGaN)
25%
Design Techniques
25%
National Laboratories
25%
Thermal Instability
25%
Agnostic
25%
System Level
25%
Thermal Design
25%
Area Approach
25%
Device Reliability
25%
Semiconductor Devices
25%
Thermal Transport
25%
Educational Needs
25%
Material Level
25%
Device Level
25%
Switching Performance
25%
Impact Review
25%
High Power
25%
Model Support
25%
Thermal Effect
25%
Materials Synthesis
25%
High Power Switching
25%
Device Engineering
25%
Semiconductor chips
25%
Material Science
Wide Bandgap Semiconductor
100%
Semiconductor Device
100%
Oxide Compound
100%
Gallium
100%
Device Integration
66%
Gallium Nitride
33%
Switch
33%
Materials Synthesis
33%
Aluminum
33%
Heat Resistance
33%
Diamond
33%
Engineering
Semiconductor Device
100%
Wide Bandgap Semiconductor
100%
Size System
16%
Integration Method
16%
Thermal Engineering
16%
Energy Conversion
16%
Design Trade
16%
Design Technique
16%
Manufacturing Cost
16%
Nitride
16%
Provide Feedback
16%
Diamond
16%
Peak Power
16%
Device Performance
16%
Active Area
16%
Bonding Pad
16%