文件名称:EmFDTD-v1.2r1
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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.
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.
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(系统自动生成,下载前可以参看下载内容)
下载文件列表
EmFDTD-v1.2r1
.............\AddSource.m
.............\AdvanceETime.m
.............\AdvanceMTime.m
.............\BandStructure.m
.............\BlochDiff.m
.............\Column.m
.............\Constants.m
.............\EffectiveIndex.m
.............\emfdtd.m
.............\emplot.m
.............\GenerateSnapshot.m
.............\Go.m
.............\InitialField.m
.............\Initialize.m
.............\InitializePML.m
.............\InitializeSource.m
.............\Introduction.m
.............\IsEven.m
.............\LoadComponent.m
.............\LoadField.m
.............\MakeFileName.m
.............\MakeProfile.m
.............\MeasurePower.m
.............\PeakDetect.m
.............\PlotBands.m
.............\PlotBandStructure.m
.............\PlotSnapshot.m
.............\PlotStructure.m
.............\PutHole.m
.............\PutRectangle.m
.............\ReadMe.txt
.............\Row.m
.............\RunFDTD.m
.............\RunFFT.m
.............\SaveComponent.m
.............\SaveField.m
.............\ScanPath.m
.............\UserDefinedStructure.m
.............\UserDefinedVariables.m
.............\AddSource.m
.............\AdvanceETime.m
.............\AdvanceMTime.m
.............\BandStructure.m
.............\BlochDiff.m
.............\Column.m
.............\Constants.m
.............\EffectiveIndex.m
.............\emfdtd.m
.............\emplot.m
.............\GenerateSnapshot.m
.............\Go.m
.............\InitialField.m
.............\Initialize.m
.............\InitializePML.m
.............\InitializeSource.m
.............\Introduction.m
.............\IsEven.m
.............\LoadComponent.m
.............\LoadField.m
.............\MakeFileName.m
.............\MakeProfile.m
.............\MeasurePower.m
.............\PeakDetect.m
.............\PlotBands.m
.............\PlotBandStructure.m
.............\PlotSnapshot.m
.............\PlotStructure.m
.............\PutHole.m
.............\PutRectangle.m
.............\ReadMe.txt
.............\Row.m
.............\RunFDTD.m
.............\RunFFT.m
.............\SaveComponent.m
.............\SaveField.m
.............\ScanPath.m
.............\UserDefinedStructure.m
.............\UserDefinedVariables.m