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| C++
| Calculates scattering and absorption of electromagnetic waves by particles of arbitrary geometry, using GPU for acceleration. Algorithms are partly based on ADDA.
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| [http://www.zjuisee.zju.edu.cn/weisha/SourceForge/sourceforge.html VIE-FFT]
| Wei E.I. Sha
| <ref>{{Cite journal
| doi = 10.1364/OE.19.015908
| volume = 19
| issue = 17
| pages = 15908-15918
|author1=Wei E.I. Sha |author2=Wallace C.H. Choy |author3=Yongpin P. Chen |author4=Weng Cho Chew
| title = Optical Design of Organic Solar Cell with Hybrid Plasmonic System
| journal = Optics Express
| year = 2011}}</ref>
| C/C++
| Simulate electromagnetic/optical response from arbitrary-shaped three-dimensional nanostructures with lossy and dispersive materials, offering theoretical results of extinction cross section, absorption cross section, scattering pattern (radar cross section), near-field distribution, and material absorption. The full-wave frequency-___domain solver is based on the biconjugate gradient stabilized (BICGSTAB) fast Fourier transform (FFT)-volume integral equation algorithm, which is as fast as FFT accelerated discrete-dipole approximation (DDA) approach.
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