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Analysis of overlapping rate of spot derived from ablated monocrystalline silicon by femtosecond laser

光学 材料科学 激光器 质心 飞秒 单晶硅 偏转(物理) 物理 人工智能 光电子学 计算机科学
作者
Fubin Wang,Mengzhu Liu,Yiliu Tu
出处
期刊:Journal of Laser Applications [Laser Institute of America]
卷期号:32 (3) 被引量:1
标识
DOI:10.2351/7.0000183
摘要

In order to investigate the overlap rate of an ablated spot on monocrystalline silicon by a femtosecond laser, a skewness spot derived from plasma is analyzed. First, the serial spot image is collected, and the ablated core area of the spot is extracted by the way of bit image layering so that the peripheral halo can be eliminated effectively. The image of the spot is enhanced by Gaussian-guided filtering, which has the effect of keeping the edge of the spot; the smoothness of different directions is the same, and the gray distribution is more uniform. Second, the two-domain product gray centroid method is introduced to extract the spot centroid; at the same time, considering the information of spatial domain and value domain, the standard deviation is reduced by1.0. Third, according to the characteristics of spot shape change, the centroid coordinates are tracked by the Kalman filter optimized by wavelet heteropoly denoising, and the error is reduced by 0.5. Finally, the distance proportion sum method is introduced to calculate the diameter of the deflection spot, and then, by using the optimal tracking method, the average change in speed of the spot in the transverse direction is found to be 0.07 mm/s. The result of this paper shows that, on the one hand, with the increase of laser power, the influence factor of spot deflection on the spot diameter is increasing but the increase in the amplitude is gradually reduced. It can be seen that the increase of laser power can slow down the influence of spot deflection on spot overlap. Between 10 and 20 mW, strong increasing effect is shown; however, between 20 and 50 mW, a weak increasing effect is shown. On the other hand, strictly speaking, it is not the scanning speed but the actual ablation speed that has a direct impact on the spot overlap rate.

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