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基于Kaczmarz投影算法对反问题进行了详细的研究.选取颗粒线分布函数作为反演对象,改进了Kaczrnarz投影算法,使投影过程发生在较大夹角的超平面之间.数值模拟了含5%和10%的测量误差时宽单峰、窄单峰、双峰和三峰四种粒径分布的反演,结果显示改进投影算法得出的粒径分布与输入的粒径分布更好得吻合.实验测量了标称为60 mn和180 nm两种单分散颗粒,结果表明改进投影算法得出的粒径分别为54.95 nm和190.55 nm,而原先投影算法得出的粒径为83.18 nm和288.40nm,进一步显示改进投影算法提高了测量结果的准确性. 相似文献
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In this letter, the technique of laser self-mixing effect is employed for nano-particle size analysis. In contrast to the photon correlation spectroscopy (PCS) and photon cross correlation spectroscopy (PCCS), the main advantages of this technique are sensitive, compact, low-cost, and simple experimental setup etc. An improved Kaczmarz projection method is developed in the inversion problem to extract the particle size distribution. The experimental results prove that nano-particle size can be measured reasonably by using the self-mixing effect technique combined with the improved projection algorithm. 相似文献
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