基于Hough变换处理方法的光镊光阱刚度标定

光阱刚度是描述光镊力学特性的一个重要指标,其标定的精确度直接决定了光镊测力的精确度。研究了一种基于Hough变换处理方法的光阱刚度标定方法。首先,介绍了基于均方位移法利用Hough变换求解位移实现刚度标定的基本原理;然后,搭建了光镊系统,进行了可行性分析。测量结果与传统的CCD相关算法进行了比较,当光的放大倍数为120时,Hough变换处理法标定的光阱刚度平均值为1.604±0.02,CCD相关算法标定的光阱刚度平均值为1.781±0.05,两种方法标定的结果基本相同。研究结果表明,Hough变化处理法具有一定的稳定性和可靠性,是标定光阱刚度可选择的方法之一。

激光功率对光镊光阱刚度标定的影响

光阱刚度是描述光镊对粒子进行操控的重要力学指标,实际使用过程中会受到激光功率的影响。采用均方位移法及玻尔兹曼统计法对搭建的光镊系统进行光阱刚度的标定,利用图像采集方法进行微粒位移的测量,并对两种方法的测量结果进行了比较。为了提高光阱刚度的标定结果的准确性,分析了光路放大倍数、温度变化对最后标定结果的精度影响。结果表明,两种方法进行标定的结果基本相同;光阱刚度在低激光功率(1mW^20mW)范围时随功率近似线性增加,在高功率情况下(25mW^60mW)随功率增加不再线性增加,而是趋于一个饱和值。此外,光路放大倍数标定的精确性对标定的精度影响较大,10%的相对误差时,标定结果产生23%的变化,温度对标定的精度影响较小,±0.1℃的温度变化导致标定结果0.034%的变化。

A strain smoothing formulation for NURBS-based isogeometric finite element analysis

A strain smoothing formulation for NURBS (non-uniform rational B-splines) based isogeometric finite element analysis is presented. This approach is formulated within the framework of assumed strain methods and strain smoothing operations. The strain smoothing is defined through strain averaging in the element sub-domains which are subsequently used for numerical integration of the Galerkin weak form. This formulation satisfies the orthogonality condition of the assumed strain methods. Meanwhile the present formulation totally avoids the gradient computation of the rational NURBS basis functions in the formulation of stiffness matrix. A transformation method is employed to accurately enforce the displacement boundary conditions. Numerical results demonstrate that the present formation gives very satisfactory solution accuracy simultaneously with improved computational efficiency.