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Design of ultra-high power multisection tunable lasers
Yaping Zhang
Research output
:
Journal Publication
›
Article
›
peer-review
7
Citations (Scopus)
Overview
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Keyphrases
Absorption Loss
66%
Buffer Layer
33%
Butt Joint
100%
Conventional Design
33%
Epilayer
33%
Fiber Optical
33%
Free Carrier Absorption
66%
Graded-index
33%
InGaAsP
33%
InP-based
33%
Joint Angle
33%
Joint Reflection
33%
Laser Device
33%
Medical Applications
33%
Monolithic Laser
33%
Multiple Quantum Wells
66%
Operation Performance
33%
Optical Fiber
33%
Optical Output Power
33%
Optical Power Distribution
33%
Optical Telecommunication
33%
P-type Doping
33%
Power Output
33%
Reflection Problem
33%
Reflectivity
33%
Ridge Width
33%
Separate Confinement Heterostructure
33%
Spacer Layer
33%
Telecommunications
33%
Tunable Laser
100%
Ultrahigh Power
100%
Unique Attributes
33%
Widely Tunable Laser
33%
Engineering
Absorption Loss
66%
Buffer Layer
33%
Butt Joint
100%
Carrier Absorption
66%
Fiber Optics
33%
Graded Index
33%
Heterojunctions
33%
Medical Applications
33%
Optical Power
33%
Optical Telecommunication
33%
Output Optical Power
33%
Output Power
33%
Potential Application
33%
Power Distribution
33%
Quantum Well
66%
Telecommunication
33%
Material Science
Buffer Layer
50%
Epilayers
50%
Fiber Optics
100%
Heterojunction
50%
Optical Power
50%
Quantum Well
100%
Reflectivity
50%