Advanced Simulation for Photonic and Optoelectronic Innovation
A cutting-edge software suite for simulating photonic and optoelectronic devices, circuits, and systems, Ansys Lumerical enables engineers and researchers to model the interaction of light with matter, allowing for the design and optimization of advanced photonic technologies. Lumerical offers comprehensive tools for simulating waveguides, modulators, lasers, photodetectors, and other optical components, addressing both nanoscale and macroscale phenomena. By integrating multiphysics simulations, including electromagnetic, thermal, and carrier transport effects, Lumerical supports the development of efficient, high-performance devices across industries such as telecommunications, healthcare, and quantum computing.
- FDTD Solver
- RCWA Solver
- Analysis of Multi-layer Thin Films
- Multiphysics Workflows
- Multiscale Workflows
- Automation API
- Particle Swarm
- Inverse Design Optimization
Check out the key features of Ansys Lumerical FDTD
Photonic Simulation
Model and analyze the behavior of light in complex photonic structures. Using finite-difference time-domain (FDTD) methods, it simulates electromagnetic wave propagation, enabling the precise design and optimization of photonic devices like waveguides, resonators, and photonic crystals.
Multiple Simulation Methods
Choose the most suitable method for precise and efficient design of photonic devices from three simulation methods: FDTD (Finite-Difference Time-Domain) models complex electromagnetic interactions, RCWA (Rigorous Coupled-Wave Analysis) is ideal for periodic structures, and STACK simulates multilayer thin-film optics.
Multiphysics and Multi-scale workflows
Integrate various physical phenomena into a unified simulation environment. This feature enables the modeling of complex interactions between electromagnetic fields, thermal effects, and material properties across different spatial and temporal scales.
HPC and Cloud Solutions
Leverage high-performance computing (HPC) and cloud resources to accelerate simulations. By utilizing powerful computing clusters and cloud infrastructure, large-scale and complex photonic models can be handled with faster turnaround times.
Foundry Compatible Design
Seamlessly integrate with semiconductor foundries by supporting design rules and fabrication processes. This feature allows users to customize simulations with specific geometries, materials, and boundary conditions.
Automated Layer Builder
Simplify the creation of complex multilayer structures by automatically generating and managing layer stacks based on user-defined parameters, facilitating the design of sophisticated photonic devices with precise layer configurations and streamlined workflows.
Software Sales
If you have any general questions about our Ansys, Moldex3D, Dante, Particleworks, or CF Turbo simulation software (quotation, licensing, training), please contact us using one of the following contact details. Please note that our software is only available to customers from the following countries: Hungary, Slovenia, Croatia, Serbia, Bosnia and Herzegovina, Montenegro, and Macedonia.
sales (at) econengineering.com
+36 1 279 0320
Greg Lipóczi, Dr.
Commercial Director
László Molnár, Ph.D.
Academic & Key Account Representative
Péter Bara
Key Account Manager
East Hungary
János Simon
Key Account Manager
West Hungary
