Evaluation of a parallel FDTD code and application to modeling of light scattering by deformed red blood cells.

@article{Brock2005EvaluationOA,
  title={Evaluation of a parallel FDTD code and application to modeling of light scattering by deformed red blood cells.},
  author={Robert S Brock and Xin-Hua Hu and Ping Yang and Jun Q. Lu},
  journal={Optics express},
  year={2005},
  volume={13 14},
  pages={5279-92}
}
A parallel Finite-Difference-Time-Domain (FDTD) code has been developed to numerically model the elastic light scattering by biological cells. Extensive validation and evaluation on various computing clusters demonstrated the high performance of the parallel code and its significant potential of reducing the computational cost of the FDTD method with low cost computer clusters. The parallel FDTD code has been used to study the problem of light scattering by a human red blood cell (RBC) of a… CONTINUE READING
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