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C FDTD CODE

Fratalocchi, “ Ab-Initio Techniques for Light Matter Interaction at the Nanoscale“ of “ Computational Chemistry Methodology in Structural Biology and Materials Sciences” Book, edited by Taylor and Francis (2017). It can accomodate geometries with millions of objects in high performance supercomputers in few seconds (both Lumerical and Comsol failed to represents the same set of complex objects and crashed). The NS-FDTD algorithm provides remarkably higher accuracy than the FDTD algorithm. Figure (a), (b), (c) are analytic, S-FDTD, NS-FDTD results, respectively. Seventy-five years after it dropped 17 paratroopers behind German lines in Normandy on D-Day, more than 500 aviation fans gathered at Montreal Saint-Hubert Longueuil Airport and more than 5,850 watched online as the Douglas DC-3, C-FDTD, made its first flight in almost 30 years on June 6 to commemorate its important role helping to defeat the Nazis in Europe. Figures 3 show the FDTD simulation results. Yee, born 1934) is a numerical analysis technique used for modeling computational electrodynamics (finding approximate solutions to the associated system of differential equations).

C FDTD CODE

The code scales up to millions of processors and is 35% faster than Lumerical, and 38% faster than comsol. This loop is held up processing events until the window is closed (4) Finalize FDTD class. Finite-difference time-domain (FDTD) or Yee's method (named after the Chinese American applied mathematician Kane S. Nanocpp is heavily written with template metaprogramming and the code is self-assembled according to the user preferences without the use of any if statement. Since it is a time-domain method, FDTD solutions can cover a wide frequency range with a single simulation run and treat nonlinear material properties in a natural way. Proprietary designed Fano-Feshback partitionaning and projection algorithms for the exact calculations of density of states and other multi-modal related quantities of nanoresonators Finite-difference time-domain (FDTD) is one of the primary computational electrodynamics modeling techniques available.Arbitrary primitive objects (including planes, volumes, cuboid) for calculations of electromagnetic quantities.

Unconditionally stable Maxwell-Bloch model for 4 level gain media with independent vectorial transitions The finite difference time domain (FDTD) algorithm is a numerical method used to solve partial differential equations which have both spatial and temporal derivatives such as Maxwell’s equations or seismic waves propagating through the earth.

Unconditionally stable Dispersion model that can represent any experiental material with perfect accuracy and arbitrary number of poles.

Arbitrary geometrical primitives objects and mathematical operations such as 2D/3D rotations are provided.

It is entirely written in C++ with the following features: Nanocpp is our homemade Finite Difference Time Domain (FDTD) solver.