资源列表
2psCorlen
- 主要用于计算关联时间,通过关联时间来计算松弛时间普
exam2
- 在matlab中调用数值求根函数对平面光导波的导模进行求解,并计算出导模中所对应的各参数。(In the MATLAB mode on the plane optical wave guide function calls for solving numerical roots, and calculate the parameters of the corresponding guide mode in the.)
exam3
- 在matlab中用数值法求解一阶贝塞尔函数的前10个零点,并作出一阶贝塞尔函数曲线,并在曲线上标注出其零点。(In MATLAB, the first 10 zeros of the first order Bessel function are solved by numerical method, and the first order Bessel function curve is made, and the zero point is marked on the curve.)
exam4
- 根据高斯光束的特性,在matlab中作出束腰半径为0.5mm的高斯光束在束腰处的三维光强分布图。(According to the characteristics of the Gauss beam, the three-dimensional intensity distribution of the Gauss beam with the waist radius of 0.5mm at the waist is made in MATLAB.)
Response_function
- 利用小信号近似方法对单量子阱激光器的响应函数进行的仿真(Simulation of the response function of a single quantum well laser by small signal approximation)
degradationofPLA
- 本程序计算了一个聚乳酸模型的二维降解过程,包括断链、自催化、扩散等(This program has calculated the two-dimensional degradation process of a polylactic acid model, including broken chain, autocatalytic, diffusion and so on.)
Van der waals
- 从范德瓦尔斯方程出发,利用牛顿迭代法,求解对应材料的binomal线和binomal线,给出相应的相图,并作出对应的P-T图像。(Starting from the Van Der Waals equation, using the Newton iterative method, the binomal line and the binomal line of the corresponding materials are solved, and the corresponding phase
正交鉴相算法.
- 正交鉴相算法的verilog源码,有部分注释,用于学习还不错!
LBM_25_LINES_AND_VIEW
- 只有24的行非常简练的LBM程序,以展示LBM方法代码的简单性,还附有一个原理演示程序。(A very simple mtlab code to show the simplicity of LBM.)
unifrom-tem
- 传热传质的耦合计算程序,专门针对除湿系统。(Conjugate heat and mass transfer in a hollow fiber membrane module for liquid desiccant air dehumidification a free surface model approach)
气体高斯扩散模型模拟_代码
- 高斯扩散模式适用于均一的大气条件,以及地面开阔平坦的地区,点源的扩散模式。排放大量污染物的烟囱、放散管、通风口等,虽然其大小不一,但是只要不是讨论烟囱底部很近距离的污染问题,均可视其为点源。(The Gauss diffusion model is applied to homogeneous atmospheric conditions, as well as to ground open flat regions, and to point source diffusion patterns
TrackingSpaceDebris-master
- 跟踪空间碎片的MATLAB代码,使用MATLAB编写(The code to calculate the Deris tracking)