研究目的
Investigating the construction and operation of a microwave-pumped laser using sulfur vapor for optical pumping, including its advantages and mathematical modeling for short-pulse operation.
研究成果
The proposed microwave-pumped laser with a sulfur lamp cell offers advantages such as high efficiency, spectrum control, and pulse operation capability. The mathematical model provides a foundation for further design and optimization of such lasers for various applications.
研究不足
The study focuses on the theoretical and mathematical modeling aspects, with limited discussion on experimental validation or practical implementation challenges.
1:Experimental Design and Method Selection:
The study describes a new construction of a microwave-pumped laser using a sulfur lamp as the optical pumping cell. The design includes a microwave generator, waveguide, sulfur vapor flask, and active laser element.
2:Sample Selection and Data Sources:
The sulfur lamp is used as the light-pumping cell, with the possibility of modifying the emission spectrum by changing the chemical composition of admixtures.
3:List of Experimental Equipment and Materials:
The setup includes a microwave generator, waveguide, sulfur vapor flask, and active laser element.
4:Experimental Procedures and Operational Workflow:
Microwave radiation excites sulfur vapor, producing light that pumps the laser active element. The system allows for cooling of the pumping element.
5:Data Analysis Methods:
A mathematical tool based on the generalized wave equation is proposed for simulating the laser's short-pulse operation, with discussions on numerical solving techniques.
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