研究目的
To suppress the PMD-induced FM-to-AM conversion in high-power laser facilities by proposing a novel tunable spectral ?lter with multiple degrees of freedom.
研究成果
The proposed multi-degrees of freedom spectral ?lter effectively suppresses PMD-induced FM-to-AM conversion in high-power laser facilities, reducing the conversion from 18% to 3.2% and maintaining it below 6.5% for 3 hours. The ?lter's decoupled control over peak wavelength, FSR, and modulation depth offers a promising solution for applications requiring ?exible spectral control.
研究不足
The study acknowledges the time-varying characteristics of PMD-induced AM, influenced by temperature, vibration, and pressure, which complicate compensation efforts. The proposed ?lter's effectiveness is demonstrated under controlled conditions, but its performance in more dynamic environments may require further optimization.
1:Experimental Design and Method Selection:
The study involves analyzing the nonuniform transmission spectrum caused by PMD and proposing a tunable spectral ?lter based on a half-wave plate, a nematic liquid crystal, and an axis-rotated polarization-maintaining ?ber.
2:Sample Selection and Data Sources:
The experiment utilizes a high-power laser facility's front end to test the proposed ?lter's effectiveness in suppressing FM-to-AM conversion.
3:List of Experimental Equipment and Materials:
The ?lter consists of a half-wave plate, a nematic liquid crystal (Thorlabs, LCC1221-B), an axis-rotated polarization-maintaining ?ber, and an inline polarizer.
4:Experimental Procedures and Operational Workflow:
The ?lter's performance is tested by adjusting its peak wavelength, free spectral range (FSR), and modulation depth to compensate for the PMD-induced FM-to-AM conversion.
5:Data Analysis Methods:
The effectiveness of the ?lter is evaluated by measuring the reduction in FM-to-AM conversion from 18% to 3.2% and maintaining it below 6.5% for 3 hours.
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