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BJT-Type Optical Phase Shifter with Small Power Consumption and Fast Response Time on a Silicon Photonics Foundry Platform
Rui Lin Chao, Zohauddin Ahmad,
Jason Chen
,
Yinchieh Lai
, Jin Wei Shi
*
*
此作品的通信作者
光電工程學系
研究成果
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Article
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同行評審
3
引文 斯高帕斯(Scopus)
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Keyphrases
Fast Response
100%
Power Consumption
100%
Driving Voltage
100%
Bipolar Transistor
100%
Silicon Photonics
100%
Optical Phase Shifter
100%
Small Power
100%
Photonics Foundry
100%
Low Power Consumption
50%
Phase Shift
50%
Optical Waveguides
50%
Refractive Index
50%
Device Structure
50%
Differential Resistance
50%
N-of-1
50%
Turn-on Voltage
50%
Amplitude Modulation
50%
Voltage Swing
50%
Plasma-induced
50%
Very Low Power
50%
Static Power Consumption
50%
Injected Current
50%
Dynamic Operation
50%
Small Footprint
50%
Propagation Loss
50%
Operation Window
50%
Fast Switching Time
50%
Saturation Mode
50%
Ideal Diode
50%
Engineering
Bipolar Transistor
100%
Fast Response
100%
Response Time
100%
Electric Power Utilization
100%
Phase Shifters
100%
Voltage Driving
100%
Optical Phase
100%
Silicon Photonics
100%
Low Power Consumption
50%
Waveguide
50%
Refractive Index
50%
Propagation Loss
50%
Device Structure
50%
Switching Time
50%
Induced Change
50%
Measured Output
50%
Phase Shift
50%
Refractivity
50%
Amplitude Modulation
50%
Physics
Junction Transistor
100%
Silicon Photonics
100%
Optical Waveguides
50%
Refractivity
50%
Amplitude Modulation
50%
Blood Plasma
50%
Earth and Planetary Sciences
Photonics
100%
Junction Transistor
100%
Amplitude Modulation
50%
Refractivity
50%
Optical Waveguides
50%
Footprint
50%
Material Science
Silicon
100%
Bipolar Transistor
100%
Waveguide
50%
Refractive Index
50%