Description: TOYFDTD1 is a stripped-down minimalist, 3D FDTD code demonstrating the basic tasks in implementing a simple 3D FDTD simulation. An idealized rectangular waveguide is modeled by treating the interior of the mesh as free space and enforcing PEC conditions on the faces of the mesh. A simplified plane wave source is inserted at one end. First released 12 April 1999. Version 1.03 released 2 December 1999. Platform: |
Size: 34106 |
Author:蒋长宏 |
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Description: TOYFDTD1 is a stripped-down minimalist, 3D FDTD code demonstrating the basic tasks in implementing a simple 3D FDTD simulation. An idealized rectangular waveguide is modeled by treating the interior of the mesh as free space and enforcing PEC conditions on the faces of the mesh. A simplified plane wave source is inserted at one end. First released 12 April 1999. Version 1.03 released 2 December 1999. Platform: |
Size: 33792 |
Author:蒋长宏 |
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Description: 采用FDTD算法仿真矩型脊波导TM模色散曲线-The finite difference time domain Maxwell equations in the field of time and space differencing. Leapfrog space in the field of electric and magnetic fields alternate calculation, updated by the time field to mimic the changes in the electromagnetic field, to achieve the purpose of numerical calculation. The analysis of the problem to consider the geometric parameters of the object of study, the material parameters, calculation accuracy, computational complexity, computational stability and many other issues. The advantage is the ability to direct simulation of field distribution, the accuracy is relatively high, and is currently one of the more numerical simulation method.This course designe using the finite difference method combined with double-ridged rectangular waveguide boundary conditions to solve the fundamental mode of the waveguide and the first higher order mode dispersion curve. Platform: |
Size: 2048 |
Author:梁家军 |
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Description: FullWAVE™ simulation tool employs the finite-difference time-domain (FDTD) method to perform a full-vector simulation of photonic structures. It is a highly sophisticated tool for studying the propagation of light in a wide variety of photonic structures, including integrated and fiber-optic waveguide devices, as well as circuits and nanophotonic devices such as photonic crystals. FullWAVE s award-winning, innovative design and feature set has made it the market leader among optical device simulation tools.-FullWAVE ™ simulation tool employs the finite-difference time-domain (FDTD) method to perform a full-vector simulation of photonic structures. It is a highly sophisticated tool for studying the propagation of light in a wide variety of photonic structures, including integrated and fiber-optic waveguide devices, as well as circuits and nanophotonic devices such as photonic crystals. FullWAVE' s award-winning, innovative design and feature set has made it the market leader among optical device simulation tools. Platform: |
Size: 1738752 |
Author:gao |
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