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laser-resonator
- 用fox-li数值迭代法模拟模拟激光谐振腔的振荡过程并计算最终的稳态分布-Using fox-li iterative numerical simulation simulate laser resonator oscillation process and calculate the final steady-state distribution
LHM-layer
- 含有左手介质双层基底的亚波长谐振腔微带天线研究-LHM layer substrate containing subwavelength resonator microstrip antenna research
CFDTD
- 介质共形FDTD技术,可以很好地计算圆柱介质的谐振频率,也可以计算谐振腔中含有介质球的谐振频率-Dielectric conformal FDTD technique can be a good medium to calculate the resonant frequency of the cylinder can also calculate the resonant frequency of the resonant cavit
1
- 采用有限差分法分析光子晶体结构谐振腔,并获得omega-k色散关系,并由此推出带隙分布,及带隙宽度 计算正三角形lattice,采用正三角形9点差分格式,划分网格为正三角形 求解Helmholtz方程本征值问题,周期边界条件,计算区域为菱形原胞,中心为金属柱-photonic band gap,PBG
aos
- 基于带有环形谐振腔的马赫增德尔干涉仪实现全光比较处理-Comparison of all-optical processing based Mach Zehnder interferometer with a ring resonator
SIW_cacul
- 根据基片集成波导谐振腔的尺寸计算SIW的频率-Caculate the frequency of the SIW cavity resonator from the size of it
three_mirror_cavity_clockwise
- 利用ABCD矩阵的方法判断包含三个球面反射镜的环形谐振腔的稳定性,以及腔内的光斑分布-By using the method of the ABCD matrix judgment contains three spherical mirror the stability of a circular cavity, and the cavity of light distribution
FDTD
- FDTD.m 程序包括程序相关变量的定义,网格的尺寸的划分,激励源的设置及基于FDTD的圆柱谐振腔迭代分析。其中通过改变空间离散度dr和采样点个数nmax,进行分析得出结论;且空间步长dt与dr有关,可得出空间步长对结果影响。-FDTD.m program includes the definition of program-related variables, set the meshing of size, the excitati
Mode_Calculation_of_Fixed_Opd_
- 在激光谐振腔中,谐振腔腔镜有畸变时,光场模式的变化情况-When the laser resonator, the resonator mirrors aberrations, changes in the optical field mode
MODE
- 计算任意面型的激光谐振腔的模式,仅二维情况-Mode laser resonator calculate any type of surface, only two dimensions
3-Dlasermode
- 计算任意面型的谐振腔输出模式,三维输出图像-Calculate any type of surface cavity output mode, three-dimensional output
fdtd
- 基于时域有限差分利用MEEP计算光子晶体微谐振腔-波导结构的透射率 品质因子-Calculation of photonic crystal use MEEP FDTD based microresonator- transmission waveguide structure quality factor
Untitled
- 激光原理中对FOX-LI编程程序,更好了解谐振腔工作原理-Laser principle of FOX- LI programming procedures, better understand the working principle of the cavity
Desktop
- 激光原理中如何用matlab做谐振腔模式分析,这里是平凹谐振腔模式-Laser principle of how to use matlab to do cavity mode analysis, here is a plane concave cavity mode
Desktop
- 激光当中最为重要的就是谐振腔,如何用matlab确定谐振腔的稳区呢?此处用平凹谐振腔举例-Laser is one of the most important among cavity, how to use matlab to determine the stability of cavity area?Here use plane concave cavity for example
Eigenmode
- 计算激光谐振腔的特征模式,只用输入两片镜子的尺寸就可以得到谐振腔的特征横模,很好用。-Calculate the characteristic pattern of the laser cavity, with only two pieces of input mirror size can get cavity transverse mode characteristics, very good use.
light_propogation_1D
- 一维光线惠更斯傅里叶传播程序,可以很好的模拟谐振腔的作用-One dimensional light Huygens Fourier transmission procedures, can simulate the resonant cavity good effect
graphene_electro-optic_modulator
- MODE Solutions 拥有特征模式计算以及长距离光场传播的各种仿真方法,是一款设计、分析、优化波导结构的理想工具。特征模式计算引擎可以计算任意形状波导中导模的物理特性; 其2.5D varFDTD 可以快速高精度地仿真SOI楔形波导和环形谐振腔等;而特征模式展开法 eigenmode expansion (EME) solver 是仿真长传播距离波导器件,例如模斑尺寸转换器、楔形波导和布拉格光栅等器件的理想方法。-MODE So
self-reproducing-mode
- 激光器谐振腔内自再现模的形成 取u1 1的均匀平面波作初始激发波,对不同尺寸的圆形镜平行平面腔计算,得镜面上稳定态场分布,其特点是:镜面振幅分布,中心最大,从中心到边缘振幅逐渐降落,整个镜面上的场分布具有偶对称性-self-reproducing mode in an open resonator
matlabfz
- 基于MATLAB的波导和谐振腔内能量传输仿真 波导 谐振腔 能量传输-Energy transfer in waveguide and resonator based on MATLAB and energy transfer in waveguide cavity