Engineering
Bragg Cell
63%
Cavity Surface
72%
Cryogenic Temperature
63%
Current Flow
9%
Data Link
9%
Design Consideration
63%
Emitting Laser
72%
Experimental Result
9%
Finite Element Analysis
9%
Injection Level
63%
Interface Shape
9%
Low Thermal Conductivity
9%
Material Model
63%
Mole Fraction
9%
Optical Interface
63%
Optical Link
63%
Room Temperature
72%
Series Resistance
9%
Storage System
63%
System Temperature
63%
Temperature Data
63%
Thermal Model
63%
Thermal Simulation
9%
Keyphrases
Actual Temperature
9%
Al Mole Fraction
9%
Cryo
27%
Cryogenic Environment
9%
Cryogenic System
31%
Cryogenic Temperature
63%
Current Flow
9%
Data Storage Systems
31%
Design Considerations
31%
Distributed Bragg Reflector
63%
Efficient Operation
9%
Electro-optic
31%
Energy Efficient
31%
Energy-efficient Operation
9%
Finite Element Method
9%
Five Steps
9%
Interface Shape
9%
Intra-cavity Contact
9%
Low Mobility
9%
Low Thermal Conductivity
9%
Material Model
31%
Optical Data Link
9%
Optical Interface
63%
Optical Link
31%
Optical-thermal Model
31%
P-type Doping
63%
Room Temperature
40%
Series Resistance
9%
System Temperature
31%
Temperature Data
31%
Thermal Simulation
9%
Vertical-cavity Surface-emitting Laser (VCSEL)
100%