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結構波與微波光電科技之未來通訊應?-用於光子-毫米波無線通信系統的高速、寬頻、並可產生毫米波角動量模態的光電發射器之開發(子計畫二)(3/3)
Shi, Jin-Wei
(PI)
電機工程學系
概覽
指紋
研究成果
(1)
指紋
探索此專案觸及的研究主題。這些標籤是根據基礎獎勵/補助款而產生。共同形成了獨特的指紋。
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Keyphrases
4-level Pulse Amplitude Modulation (PAM-4)
33%
6G Networks
16%
75-110 GHz
16%
Active Windows
33%
Antenna Design
16%
Avalanche Photodiode
100%
Bandwidth Capacity
33%
Coherent Communications
33%
Communication Efficiency
16%
Communications-based
100%
Coupling Loss
16%
Dark Current
33%
Dark Current Characteristic
33%
Dimension Space
16%
Electrical Bandwidth
33%
Excellent Performance
33%
Free Space
33%
Gain-bandwidth Product
66%
GHz Band
16%
Heat Sink
16%
High Dynamic
100%
High Power
100%
High Responsivity
66%
High Saturation Power
33%
High-power Performance
16%
High-power Photodiode
33%
Hybrid Absorber
16%
Impedance Matching Circuit
16%
Large Gain
33%
Layer Design
33%
Low Dark Current
66%
Low Loss
16%
M-Layer
66%
Mesostructure
50%
Millimeter Wave
16%
Millimeter Wave Systems
16%
Millimeter-wave over Fiber (MMWoF)
100%
Millimeter-wave Signal
33%
Millimeter-wave Transmission
16%
Millimeter-wave Wireless
16%
Mode multiplexing
16%
Multiplexing
16%
Multiplexing Technique
16%
Next-generation Wireless
16%
Optical Fiber
16%
Optical Transmitters
100%
Optical Wireless Communication
100%
Orbital Angular Momentum
100%
Orbital Angular Momentum Antenna
33%
Orbital Angular Momentum Mode
100%
Orbital Angular Momentum multiplexing
16%
Photodiode
50%
Photodiode Structures
33%
Photonics
16%
Point-to-point Radio
16%
Power Bandwidth
100%
Propagation Loss
16%
Radio over Fiber System
16%
Ranging Performance
100%
Responsivity
16%
Saturation Current
33%
Sensitivity Performance
33%
Sink Area
16%
Spatial Mode
16%
Speed-power
33%
Taiwan
16%
Top-illuminated
100%
Transmission System
16%
Transmitter Module
16%
Ultrafast
16%
Waveguide
16%
Wide Bandwidth
100%
Wide Dynamic Range
100%
Wireless Communication Systems
16%
Wireless Power Transfer System
33%
Wireless Transmission
33%
Engineering
Antenna
25%
Avalanche Photodiode
100%
Communication System
16%
Coupling Loss
8%
Dynamic Range
100%
Electrical Bandwidth
33%
Free Space
16%
Front End
8%
Gain-Bandwidth Product
66%
Layer Design
33%
Low-Loss Optical Fiber
8%
Matching Circuit
8%
Millimeter Wave
100%
Multiplexing
25%
Orbital Angular Momentum
100%
Orthogonal Multiple
8%
Photodiode
41%
Photonics
100%
Propagation Loss
8%
Redesign
8%
Responsivity
75%
Waveguide
8%
Wireless Communication
100%