Quick Specs
Lumerical MODE puts high-accuracy waveguide simulation at the forefront with a Finite Difference Eigenmode (FDE) solver, a variational FDTD (varFDTD) solver, and a Bidirectional Eigenmode Expansion (EME) solver.
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.
Comprehensive Optical Waveguide Design Environment
MODE enables you to accurately model waveguide and coupler performance. Combining bidirectional Eigenmode expansion, varFDTD, and finite difference eigenmode solvers, MODE can easily handle both large planar structures and long propagation lengths, providing accurate spatial field, modal frequency, and overlap analysis.
Lumerical MODE puts high-accuracy waveguide simulation at the forefront with a Finite Difference Eigenmode (FDE) solver, a variational FDTD (varFDTD) solver, and a Bidirectional Eigenmode Expansion (EME) solver.
JANUARY 2024
The 2024 R1 release enables streamlined convergence studies by autoscaling of PMLs in Finite-Difference Eigensolver (FDE) and new visualization capability for bend waveguides in EME solver.
CAPABILITIES
Create your model faster — and with accuracy — by employing Lumerical MODE. Lumerical MODE lets you focus on ideas and product, instead of worrying about how the software can get you there. 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.
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