研究目的
Designing and implementing a Silicon Pillar Bow Windmill for use in LED output couplers at 100 GHz frequency with cylindrical waveguides to achieve low return loss and insertion loss.
研究成果
The Silicon Pillar Bow Windmill designed using CST Microwave Studio shows good performance with a return loss of -22.38 dB and insertion loss of -0.000723 dB at 100 GHz, making it suitable for low and medium power microwave applications in LED output couplers.
研究不足
The design is simulated and not physically fabricated; performance is theoretical and may vary in practical applications. Limited to low and medium power microwave applications.
1:Experimental Design and Method Selection:
The experiment involves designing a Silicon Pillar Bow Windmill structure using CST Microwave Studio software for simulation. The design includes a circular aluminum disc placed between two circular waveguides.
2:Sample Selection and Data Sources:
The sample is a simulated model with specific dimensions (thickness 3.19 μm, radius 2500 μm) and material properties (aluminum).
3:19 μm, radius 2500 μm) and material properties (aluminum).
List of Experimental Equipment and Materials:
3. List of Experimental Equipment and Materials: CST Microwave Studio software for simulation, aluminum material for the disc.
4:Experimental Procedures and Operational Workflow:
The design is created in CST Microwave Studio, simulations are run to analyze electromagnetic properties, and parameters like return loss and insertion loss are measured at 100 GHz.
5:Data Analysis Methods:
The simulation results are analyzed to evaluate performance metrics such as return loss and insertion loss using the software's built-in tools.
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