研究目的
Investigating the effects of laser processing on the secondary electron yield (SEY) of molybdenum surfaces for application in multistage depressed collectors (MDCs) to enhance efficiency.
研究成果
Laser processing of molybdenum surfaces can effectively reduce the secondary electron yield (SEY) to less than one, making it a promising method for enhancing the efficiency of multistage depressed collectors (MDCs). The study identified optimal laser parameters for SEY suppression and highlighted the importance of surface morphology and chemical states in SEY reduction.
研究不足
The study was conducted in an atmospheric environment, which may affect the oxidation states of the molybdenum surface. Future studies could explore laser processing in vacuum or inert atmospheres.
1:Experimental Design and Method Selection
Laser processing of molybdenum samples to create nano/micro-structures for SEY reduction. Characterization of SEY, surface morphologies, and chemical states.
2:Sample Selection and Data Sources
Bulk Mo samples with a purity of 97.96% were used. Samples were ultrasonically cleaned before SEY measurements.
3:List of Experimental Equipment and Materials
Fiber laser (K20-CS nanosecond pulsed fiber laser), SEM (JEOL 7800F Schottky field SEM), XPS (AXIS ULtrabld spectrometer), SEY testing equipment.
4:Experimental Procedures and Operational Workflow
Laser processing at room temperature in an atmospheric environment. SEY measurements at different incident angles. SEM and XPS analysis for surface characterization.
5:Data Analysis Methods
Analysis of SEY curves, SEM images, and XPS spectra to determine the effects of laser parameters on SEY and surface properties.
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