Description: 本代码是光子晶体光纤切面的光强分布仿真程序,对搞光子晶体的同行很有帮助。-the code is photonic crystal fiber plane, the intensity distribution simulation program to engage in peer photonic crystal helpful. Platform: |
Size: 10240 |
Author:xuquan |
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Description: 计算光子晶体波导的程序,使用matlab语言编写.-calculation of photonic crystal waveguide, the use of Matlab language. Platform: |
Size: 1024 |
Author:余界 |
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Description: This is a program to calculate the Photonic Bands of two dimension Photonic Crystal with circular inclusions. It calculates both TE and TM modes (E and H polarization).-This is a program to calculate the Photonic Bands of two dimension Photonic Crystal with ci rcular inclusions. It calculates both TE and TM modes (E and H polarization). Platform: |
Size: 2048 |
Author:chunfenglay |
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Description: pwe计算方形格子二维光子晶体线缺陷能带的matlab源代码-PWE calculation of two-dimensional square lattice photonic crystal line defect energy band of matlab source code Platform: |
Size: 2048 |
Author:喻波 |
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Description: 外国人开发的电磁时域有限差分方法工具包
Electromagnetic Finite-Difference Time-Domain (EmFDTD)
is a basic two-dimensional FDTD code developed at the
School of Electrical Engineering, Sharif University of
Technology.
This code has been written based on the standard
Yee s FDTD algorithm. Applications include propagation,
scattering, and diffraction of electromagnetic waves
in homogeneous and non-homogeneous isotropic media
for in-plane propagating waves. Negative permittivites
or permeabilities as well as dispersion is not included.
Zero, Periodic, and Perfectly Matched Layer boundary
conditions may be selectively applied to the solution
domain.
The program is best suited for study of propagation and
diffraction of electromagnetic waves in Photonic Crystal
structures.
EmFDTD is written in MATLAB language and has been
tested under MATLAB 5.0 and higher versions.-Foreigners developed electromagnetic FDTD method Toolkit Electromagnetic Finite-Difference Time-Domain (EmFDTD) is a basic two-dimensional FDTD code developed at the School of Electrical Engineering, Sharif University of Technology. This code has been written based on the standard Yee s FDTD algorithm. Applications include propagation, scattering, and diffraction of electromagnetic wavesin homogeneous and non-homogeneous isotropic mediafor in-plane propagating waves. Negative permittivites or permeabilities as well as dispersion is not included.Zero, Periodic, and Perfectly Matched Layer boundaryconditions may be selectively applied to the solution domain.The program is best suited for study of propagation anddiffraction of electromagnetic waves in Photonic Crystalstructures.EmFDTD is written in MATLAB language and has beentested under MATLAB 5.0 and higher versions. Platform: |
Size: 21504 |
Author: |
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Description: 二维光子晶体禁带的MATLAB源码,光子晶体中因周期性结构而存在的频率禁带称为光子禁带,光子禁带的存在是光子晶体具有广泛应用前景的重要原因。 禁带越大,可控光的频带也越宽-Two-dimensional photonic crystal band gap of MATLAB source, photonic crystal structure exists because of the cyclical frequency band known as photonic band gap, photonic band gap is the existence of photonic crystal has a broad application prospects of the important reasons. The greater the band gap, controllable light the more wide-band Platform: |
Size: 1024 |
Author:wf |
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Description: This MATLAB code demonstrates the finite-difference frequency-domainmethod by modeling transmission and reflectance from a photonic crystal.-This MATLAB code demonstrates the finite-difference frequency-domain method by modeling transmission and reflectance from a photonic crystal. Platform: |
Size: 5120 |
Author:kao chuan-yuan |
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Description: 用FDFD模拟光子晶体光纤的色散的程序,主程序为FDFD.m,计算色散的为dispersion.m-FDFD simulation of photonic crystal fibers with a dispersion of the process, the main program for the FDFD.m, calculated dispersion for dispersion.m Platform: |
Size: 241664 |
Author:lyang |
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Description: 利用FDTD模拟光子晶体光纤中的色散的程序,是在wang.m程序基础上改进之后计算色散的。-FDTD simulation of photonic crystal fiber used in the dispersion of the procedure is based on the improvements in the program after wang.m calculated dispersion. Platform: |
Size: 7168 |
Author:lyang |
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Description: Photonic crystals are attractive optical materials for controlling and manipulating the flow of light. One dimensional photonic crystals are already in widespread use in the form of thin-film optics with applications ranging from low and high reflection coatings on lenses and mirrors to colour changing paints and inks. Higher dimensional photonic crystals are of great interest for both fundamental and applied research, and the two dimensional ones are beginning to find commercial applications. The first commercial products involving two-dimensionally periodic photonic crystals are already available in the form of photonic-crystal fibers, which use a microscale structure to confine light with radically different characteristics compared to conventional optical fiber for applications in nonlinear devices and guiding exotic wavelengths. The three-dimensional counterparts are still far from commercialization but may offer additional features such as optical nonlinearity require Platform: |
Size: 5120 |
Author:raghuwanshi |
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