跳至主導覽
跳至搜尋
跳過主要內容
國立中央大學 首頁
說明與常見問題
English
中文
首頁
人才檔案
研究單位
研究計畫
研究成果
資料集
榮譽/獲獎
學術活動
新聞/媒體
影響
按專業知識、姓名或所屬機構搜尋
建構於光子積體迴路技術並應用於頻率調變連續波光達系統的光引擎之開發(1/3)
Shi, Jin-Wei
(PI)
電機工程學系
概覽
指紋
研究成果
(7)
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。
排序方式
重量
按字母排序
Keyphrases
Avalanche Photodiode
100%
M-Layer
55%
High Power
50%
Lidar System
50%
System Application
50%
Wide Dynamic Range
40%
Electric Field (E-field)
38%
Ranging Performance
35%
High Dynamic
33%
Temporal Quality
33%
Ultrahigh Responsivity
33%
Single Photon Avalanche Diode
33%
Copper Substrate
33%
Frequency-modulated Continuous-wave Lidar
33%
InAlAs
33%
Tensile Strain
33%
Vertical Cavity Surface Emitting Laser Array
33%
InGaAs
33%
High Responsivity
31%
Vertical-cavity Surface-emitting Laser (VCSEL)
23%
Threshold Current
22%
Electroplated Copper
22%
Self-heterodyne
22%
Top-illuminated
21%
Avalanche Process
20%
High-speed Transmission
20%
Transimpedance Amplifier
17%
Composite Charge
16%
VCSEL Array
16%
High-power Performance
16%
Low Dark Current
16%
Speed-power
16%
High Brightness
16%
Efficiency Enhancement
16%
Waveguide
16%
FMCW LiDAR
16%
Charge Transport Layers
16%
Gain-bandwidth Product
16%
Low Divergence Angle
15%
Optical Spectra
15%
High Gain
14%
Dark Count Rate
13%
Electric Field Profile
13%
Responsivity
12%
Ultra High Gain
12%
Dynamic Range
12%
High Performance
12%
Saturation Current
11%
Coherent Receiver
11%
Double-crystal
11%
Cavity Loss
11%
Single Polarization
11%
Current Loss
11%
Absorber Layer
11%
Zinc Diffusion
11%
Mode Selectivity
11%
X-ray Measurements
11%
Laser Micromachining
11%
Device Efficiency
11%
Fundamental Mode
11%
Duty Cycle
11%
Intra-cavity
11%
Reference Instrument
11%
Bias Current
11%
Low Loss
11%
High Output Power
11%
Slope Efficiency
11%
Side-mode Suppression Ratio
11%
Polarization State
11%
Suppression Ratio
11%
Single-mode Output
11%
Output Performance
11%
Lasing Modes
11%
Measurement Results
11%
Power Vertical
11%
LiDAR Image
10%
High-power Operation
10%
Bandwidth Degradation
10%
Optical Alignment
9%
Optical Modulation
7%
Sweeping
7%
Optical Pulse Train
7%
Layer Design
7%
Modulation Depth
7%
Photo-generated
7%
Edge Breakdown
7%
Downscaling
7%
Backlight
7%
Single Photon Detection Efficiency
6%
Afterpulsing
6%
Count Rate Performance
6%
Build Time
6%
Time-correlated Single-photon Counting (TCSPC)
6%
Photodiode Receiver
6%
Temporal Features
6%
SN Ratio
6%
3D LiDAR
6%
Detection Performance
6%
Active Area
6%
Temporal Response
6%
LiDAR
6%
Avalanche
6%
Small Devices
6%
Full Width at Half Maximum
6%
Novel Design
6%
Power Required
6%
Special Design
6%
Ni-P
6%
Photoreceiver
6%
Electric Field Distribution
6%
Light Detection
6%
Local Oscillator Power
6%
Layered Structure
5%
Breakdown Phenomena
5%
Excellent Performance
5%
Performance Characteristics
5%
Current Performance
5%
High Saturation Power
5%
RF Power
5%
Mesostructure
5%
Electric
5%
Engineering
Avalanche Photodiode
100%
Responsivity
77%
Optical Radar
50%
Dynamic Range
48%
Electric Field
40%
Frequency Modulated Continuous Wave
33%
Cavity Surface
33%
Copper Substrate
33%
Tensile Strain
33%
Indium Gallium Arsenide
33%
Emitting Laser
33%
Gain-Bandwidth Product
25%
Amplifier
23%
Current Threshold
22%
Speed Data
16%
Waveguide
16%
Transmissions
16%
Absorber Layer
16%
Divergence Angle
16%
Optical Spectrum
16%
Optical Modulation
15%
Led Process
15%
Coherent Receiver
11%
Ray Measurement
11%
Cavity Loss
11%
Side Output
11%
Fundamental Mode
11%
Duty Cycle
11%
Polarization State
11%
Output Power
11%
Lasing Mode
11%
Performance Output
11%
Layer Structure
10%
Data Rate
8%
Speed Transmission
8%
Fits and Tolerances
8%
Chip Bonding
8%
Time-Correlated Single Photon Counting
8%
Back Side
8%
Electrical Bandwidth
8%
Current Output
8%
Active Area
8%
Detection Performance
8%
Light Detection and Ranging
8%
Field Distribution
8%
Layer Design
7%
Optical Pulse
7%
Pulse Train
7%
Local Oscillator
6%
Free Space
5%
Photon Density
5%
Plug Efficiency
5%
Single Element
5%
Signal Modulation
5%
Dilution
5%
Eye Opening
5%
Maximum Output Power
5%
Light Source
5%
Output Pattern
5%
Limited Bandwidth
5%
Performance Characteristic
5%