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GaN-based W-band receiver chip development for fusion plasma diagnostics
Xiaoliang Li
*
, Pin Jung Chen
, Ying Chen
,
Robert Hu
, Chin Chi Lin
, Chin Hsin Yang
, Hai Yu
, Shasha Qiu
, Calvin Domier
, Guanying Yu
, Yilun Zhu
, Neville Luhmann
*
此作品的通信作者
電機資訊國際博士學位學程
電子研究所
研究成果
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引文 斯高帕斯(Scopus)
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Keyphrases
75-110 GHz
25%
Accuracy Analysis
25%
Burning Plasma
50%
Chain of Oscillators
25%
DIII-D
25%
Disruption Prediction
25%
Edge Shape
25%
Extreme Pressure
25%
Extreme Temperature
25%
Fusion Facility
25%
Fusion Plasma
25%
Fusion Plasma Diagnostics
100%
Fusion Reactor Safety
25%
Fusion Research
25%
Fusion Technology
25%
Gallium Nitride
100%
Harsh Environment
25%
Intermediate Frequency Amplifier
25%
Laboratory Measurements
25%
Local Oscillator
25%
Low Noise Amplifier
25%
Magnetic Fusion Device
25%
Measurement Results
25%
Millimeter Wave Diagnostics
50%
Millimeter Wave Receivers
25%
Mixer
25%
Operational Safety
25%
Plasma Behavior
25%
Plasma Devices
50%
Plasma Edge
25%
Pressure Level
25%
Promising Solutions
25%
Radiation Level
25%
Receiver chip
100%
Receiver Module
25%
Safety Control
25%
Safety Monitoring
25%
Shape Monitoring
25%
System-on-chip
25%
Temperature Level
25%
Temperature Radiation
25%
W-band
25%
W-band Receiver
100%
Wide Bandgap
25%
Engineering
Amplifier
25%
Band Gap
25%
Disruptions
25%
Extreme Condition
25%
Fusion Plasmas
100%
Fusion Reactor
25%
Intermediate Frequency
25%
Local Oscillator
25%
Low Noise Amplifier
25%
Millimeter Wave
75%
Mixers (Machinery)
25%
Nitride
100%
Plasma Diagnostics
100%
System-on-Chip
25%
W-Band
100%
Physics
Blood Plasma
75%
Energy Gaps (Solid State)
25%
Fusion Plasma Diagnostics
100%
Fusion Plasmas
25%
Fusion Reactor
25%
Low Noise
25%
Magnetism
25%
Nitride
100%
Material Science
Gallium Nitride
100%