| 释义 |
- References
The following table list notable software packages that are nominal EM (electromagnetic) simulators; | Name | License | Windows | Linux | 3D | GUI | Convergence detector | Mesher | Algorithm | Area of application |
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| NEC | open source | {{yes}} | {{yes}} | {{yes}} | {{no}} | {{yes}} | manual | MoM | Widely used as the basis for many GUI-based programs on many platforms. Version 4 is commercially licensed. |
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| Momentum | commercial | {{yes}} | {{yes}} | {{partial}} | {{yes}} | {{yes}} | equidistant | MoM | For passive planar elements development, integrated into Agilent EEsof Advanced Design System. |
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| HFSS | commercial | {{yes}} | {{Yes}} | {{yes}} | {{yes}} | {{yes}} | Automatic adaptive | FEM FDTD PO Hybrid FEBI MoM Eigen Mode | For antenna/filter/IC packages, Radome,RFIC,LTCC,MMIC,Antenna Placement,Wave guides, EMI,FSS,Metamaterial,Composite Material, RCS-Mono and Bi development. |
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| VORPAL | commercial | {{yes}} | {{yes}} | {{yes}} | {{yes}} | {{yes}} | equidistant or manual | PiC/FDTD | For plasma/gas devices, full relativistic effects. |
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| XFdtd | commercial | {{yes}} | {{yes}} | {{yes}} | {{yes}} | {{yes}} | Automatic Project Optimized | FDTD | RF and microwave antennas, components, and systems, including mobile devices. MRI coils, radar, waveguides, SAR validation. |
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| JCMsuite | commercial | {{yes}} | {{yes}} | {{yes}} | {{yes}} | {{yes}} | Automatic, error-controlled | FEM | Nano- and micro-photonic applications (light scattering,[1] waveguide modes,[2] optical resonances[).] |
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| COMSOL Multiphysics | commercial | {{Yes}} | {{Yes}} | {{Yes}} | {{Yes}} | {{Yes}} | Automatic | FEM, Boundary element method, Ray Tracing | General Purpose |
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| CST Studio Suite | commercial | {{yes}} | {{yes}} | {{yes}} | {{yes}} | {{yes}} | Automatic or Manual | MoM FEM FIT MLFMM PO TLM Eigenmode Solver | For couplers, filters, connectors, antennas[1], PCBs, packages, waveguides, travelling wave tubes, photonic devices, plasmonic devices[1], solar panels, sensors, actuators, electrical machines, SAR, MRI coils and cable harnesses etc. |
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| FEKO | commercial | {{yes}} | {{yes}} | {{yes}} | {{yes}} | {{yes}} | Automatic or manual; adaptive | MoM FEM FDTD MLFMM PO RL-GO UTD | For antenna analysis, antenna placement, windscreen antennas, microstrip circuits, waveguide structures, radomes, EMI, cable coupling, FSS, metamaterials, periodic structures, RFID |
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| Elmer FEM | open source (GPL) | {{Yes}} | {{Yes}} | {{Yes}} | {{Yes}} | {{Yes}} | manual, or can import other mesh formats | FEM | General Purpose, includes 2D and 3D magnetics solvers, both static and harmonic. 3D solver is based on the Whitney AV formulation of Maxwell's equations. |
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References1. ^url=https://ieeexplore.ieee.org/document/7228785
2. ^1 {{cite journal | first = G. K. L. | last = Wong | display-authors=etal| date = 2012| title = Excitation of Orbital Angular Momentum Resonances in Helically Twisted Photonic Crystal Fiber| journal = Science| volume = 337| issue = 6093 | pages = 446–449| doi = 10.1126/science.1223824 | pmid = 22837523 | bibcode= 2012Sci...337..446W}}
3. ^1 2 {{cite journal | first = J. | last = Hoffmann | display-authors=etal| date = 2009| title = Comparison of electromagnetic field solvers for the 3D analysis of plasmonic nano antennas| journal = Proc. SPIE| volume = 7390| pages = 73900J| doi = 10.1117/12.828036 | arxiv= 0907.3570| series = Modeling Aspects in Optical Metrology II }}
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}}{{DEFAULTSORT:EM simulation software}} 3 : Simulation software|Electromagnetic simulation software|Software comparisons |