Grindeq Math Utilities: A Powerful Tool for Mathematicians and Engineers

Free Trial

: A fully functional evaluation version is available on the GrindEQ Download page , typically offering a limited number of free launches or conversions. Key Advantages

The run from three weeks ago—the one that had failed catastrophically, spitting out garbage values and crashing his workstation—had changed. The timestamps were the same. The file sizes were the same. But when he opened the output, the data was beautiful . Converged. Perfect. As if it had always been that way.

The suite is comprised of several distinct modules that handle specific conversion tasks:

Danlwd Grindeq Math Utilities !!exclusive!! < FAST – SOLUTION >

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danlwd grindeq math utilities

OptiFDTD

70 MB

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FDTD Publications
FDTD Videos
FDTD Features
FDTD Tutorials

OptiFDTD enables you to design, analyze and test modern passive and nonlinear photonic components for wave propagation, scattering, reflection, diffraction, polarization and nonlinear phenomena. The core program of OptiFDTD is based on the Finite-Difference Time-Domain (FDTD) algorithm with second-order numerical accuracy and the most advanced boundary conditions – Uniaxial Perfectly Matched Layer (UPML).

The algorithm solves both electric and magnetic fields in temporal and spatial domain using the full-vector differential form of Maxwell’s coupled curl equations. This allows for arbitrary model geometries and places no restriction on the material properties of the devices.

Applications

  • Surface Plasmon Resonance (SPR)
  • Photonic band gap materials and devices
  • Nano-particles, and tissue cells
  • Diffractive micro-optics elements and lenses
  • Complex integrated optics structures
  • Nonlinear materials, dispersive materials
  • Optical micro-ring filters and resonators
  • Grating based waveguide structures
  • Electromagnetic phenomena

 

Interface with Popular DesignTools
  • Code V
  • Zemax

Feel free to browse our FDTD gallery (click to enlarge):

     FDTD - Figure 3 Inversion Symmetry and Domain Origin FDTD - 3D Wave propagation

FDTD - Figure 8 The time domain snapshot observed in 3D Viewer from observation area 2FDTD - Figure 5 Layout

FDTD - Figure 16 Elliptic waveguide in the TFSF regionFDTD - Figure 2 Layout in OptiFDTD

FDTD - Figure 10 Observation components of projectFDTD - Selected Grating layout

FDTD - Figure 2 Example LayoutFDTD - Figure 1 3D layout mode for sphere

  FDTD - Observation Area Analysis dialog box FDTD - Figure 106 Observation Area Analysis dialog box

FDTD - Figure 5 OptiFDTD_Simulator FDTD - Figure 40 3D Simulation results

FDTD - Figure 95 PBG layout with new wavepath FDTD - Figure 18 3D Layout

FDTD - Beam size measurement in OptiFDTD(b)

FDTD - Poynting vector for Fiber lens  FDTD - Surface wave propagation model

FDTD - Power transmission ratios and normalised powersFDTD - Near field in slice viewer

FDTD - Photonic Crystal Layout FDTD - Diffraction Grating 3D Layouts

Layout in OptiFDTD  Directional grating Coupled waveguide in OptiFDTD

Layout in OptiFDTD  FDTD - Nanoparticle plane wave and the nanoparticle intensity

Related:

Danlwd Grindeq Math Utilities !!exclusive!! < FAST – SOLUTION >

Grindeq Math Utilities: A Powerful Tool for Mathematicians and Engineers

Free Trial

: A fully functional evaluation version is available on the GrindEQ Download page , typically offering a limited number of free launches or conversions. Key Advantages

The run from three weeks ago—the one that had failed catastrophically, spitting out garbage values and crashing his workstation—had changed. The timestamps were the same. The file sizes were the same. But when he opened the output, the data was beautiful . Converged. Perfect. As if it had always been that way. danlwd grindeq math utilities

The suite is comprised of several distinct modules that handle specific conversion tasks: Grindeq Math Utilities: A Powerful Tool for Mathematicians

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