MODE

Whether you are working on fiber optics or integrated photonics, MODE has everything you need to get the most out of your waveguide and coupler designs. The Bidirectional Eigenmode expansion and varFDTD engines easily handle both large planar structures and long propagation lengths, providing accurate spatial field, modal frequency, and overlap analysis.

Key Applications

• Waveguides • Electro-optic modulators
• Tapers • Fibers
• Couplers and resonators • Thermal tuning and switching
• Integrated optics • Transmission lines
   

Except for below applications, you can find more examples on Application Gallery

Key Features

3D CAD Environment

3D CAD Environment and parameterizable simulation objects allow for rapid model iterations.

  • Build 1D, 2D or 3D models
  • Define custom surfaces and volumes
  • Parameterizable simulation objects
  • Import from STL, GDSII
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Nonlinearity and Anisotropy

Simulate devices fabricated with nonlinear materials or materials with spatially varying anisotropy.

  • Choose from a wide range of nonlinear, negative index, and gain models
  • Define new material models with flexible material plug-ins
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Advanced Conformal Mesh

Achieve high accuracy with your simulations, even with coarse meshes, thanks to submesh geometry sensitivity 

  • Compatible with dispersive and high-index contrast materials
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Multi-coefficient Models

Uses multi-coefficient models for accurate material modeling over broadband ranges.

  • Accurately represent real materials over broad wavelength ranges
  • Automatically generate models from sample data, or define the functions yourself.
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Powerful 3 Solvers

  • Finite Difference Eigenmode (FDE) solver 
  • 2.5D variational FDTD (varFDTD) solver
  • Bidirectional Eigenmode Expansion (EME) solver
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Finite Difference Eigenmode (FDE) solver

  • Solves full vectorial Maxwell’s equations at a single frequency 
  • The solver calculates the mode field profiles, effective index, and loss.
  • Integrated frequency sweep makes it easy to calculate group delay, dispersion, etc.
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2.5D variational FDTD (varFDTD) solver

  • 3D planar waveguide geometry collapsed into 2D effective materials
  • Effective material calculated for each unique vertical cross section 
  • Ideal for quick optimization of planar waveguide geometries
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Bidirectional Eigenmode Expansion (EME) solver

  • Efficient for the design and optimization of long tapers and periodic devices
  • Easily scaling up the structure size without recalculating any modes.
  • Unlike BPM, which relies on a slowly varying envelope approximation, the EME method makes no such approximations, and is a rigorous technique.
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Advanced Analysis 

  • Bend loss analysis  
  • Overlap calculation / analysis
  • Modal area analysis
  • Helical waveguides
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