Tags :Lumerical

Lumerical_FDTD_Solutions 8.11High performance 3D FDTD-method Maxwell solver for the design, analysis and optimization of nanophotonic devices, processes and materialsFDTD Solutions is a 3D Maxwell solver, capable of analyzing the interaction of UV, visible, and IR radiation with complicated structures employing wavelength scale features. FDTD Solutions empowers designers to confront the most challenging photonic design problems. Rapid prototyping and highly-accurate simulations reduce reliance upon costly experimental prototypes, leading to a quicker assessment of design concepts and reduced product development costs. FDTD Solutions can facilitate your success in diverse application areas, from fundamental photonics research to current industrial applications in imaging, lighting, biophotonics, photovoltaics, and many more.High performance FDTD solver Sophisticated FDTD meshingFDTD Solutions is the only dedicated nanophotonic FDTD simulator offering...

MODE Solutions 7.5Comprehensive waveguide design environment for the analysis and optimization of planar integrated optical waveguides, components and fibersSupporting an eigenmode solver as well as various methods for simulating guided propagation of optical fields over long distances, MODE Solutions is an ideal tool for the design, analysis and optimization of guided components. The eigenmode solver accurately calculates the physical properties of guided modes in truly arbitrary waveguide geometries. The 2.5D varFDTD solver in MODE Solutions enables rapid and accurate simulation of planar waveguide geometries such as SOI tapers and ring resonators, whereas the eigenmode expansion (EME) solver is ideal for simulating long distance light propagation in waveguide devices such as spot-size converters, tapers and Bragg gratings. When combined with DEVICE,...

Supporting an eigenmode solver as well as various methods for simulating guided propagation of optical fields over long distances, MODE Solutions is an ideal tool for the design, analysis and optimization of guided components. The eigenmode solver accurately calculates the physical properties of guided modes in truly arbitrary waveguide geometries. The 2.5D varFDTD solver in MODE Solutions enables rapid and accurate simulation of planar waveguide geometries such as SOI tapers and ring resonators, whereas the eigenmode expansion (EME) solver is ideal for simulating long distance light propagation in waveguide devices such as spot-size converters, tapers and Bragg gratings. When combined with DEVICE, Lumerical’s optoelectronic solver, MODE Solutions provides a powerful tool for the design and analysis of active components such...

FDTD Solutions is a 3D Maxwell solver, capable of analyzing the interaction of UV, visible, and IR radiation with complicated structures employing wavelength scale features. FDTD Solutions empowers designers to confront the most challenging photonic design problems. Rapid prototyping and highly-accurate simulations reduce reliance upon costly experimental prototypes, leading to a quicker assessment of design concepts and reduced product development costs. FDTD Solutions can facilitate your success in diverse application areas, from fundamental photonics research to current industrial applications in imaging, lighting, biophotonics, photovoltaics, and many more. Highly-optimized computational engine able to exploit multi-core computing systems in everything from laptops to high-performance computing clusters. Broad operating system and hardware support (including Amazon EC2) enables for high throughput design assessment on...

FDTD Solutions is a 3D Maxwell solver, capable of analyzing the interaction of UV, visible, and IR radiation with complicated structures employing wavelength scale features. FDTD Solutions empowers designers to confront the most challenging photonic design problems. Rapid prototyping and highly-accurate simulations reduce reliance upon costly experimental prototypes, leading to a quicker assessment of design concepts and reduced product development costs. FDTD Solutions can facilitate your success in diverse application areas, from fundamental photonics research to current industrial applications in imaging, lighting, biophotonics, photovoltaics, and many more. Highly-optimized computational engine able to exploit multi-core computing systems in everything from laptops to high-performance computing clusters. Broad operating system and hardware support (including Amazon EC2) enables for high throughput design assessment on...

Lumerical’s 2013b Release a Milestone in Modeling Sophisticated Photonic Components and CircuitsLumerical’s 2013b release contains targeted feature development to better address a wide array of sophisticated passive, nonlinear and active photonic components on their own and assembled within highly functional and complex photonic integrated circuits May 23, 2013 – Vancouver, BC – Lumerical Solutions, Inc., a global provider of photonic design software, announced today its 2013b release which provides significant improvements to all of Lumerical’s products, and includes releases of FDTD Solutions 8.6, MODE Solutions 6.5, INTERCONNECT 3.0 and DEVICE 3.0. This 2013b release will reinforce Lumerical’s status as the most frequently referenced vendor of dedicated photonic design tools by R&D professionals. Release Highlights: Passive and Active Photonic Component Design...

Lumerical’s 2013b Release a Milestone in Modeling Sophisticated Photonic Components and CircuitsLumerical’s 2013b release contains targeted feature development to better address a wide array of sophisticated passive, nonlinear and active photonic components on their own and assembled within highly functional and complex photonic integrated circuits May 23, 2013 – Vancouver, BC – Lumerical Solutions, Inc., a global provider of photonic design software, announced today its 2013b release which provides significant improvements to all of Lumerical’s products, and includes releases of FDTD Solutions 8.6, MODE Solutions 6.5, INTERCONNECT 3.0 and DEVICE 3.0. This 2013b release will reinforce Lumerical’s status as the most frequently referenced vendor of dedicated photonic design tools by R&D professionals. Release Highlights: Passive and Active Photonic Component Design...

DEVICE employs the industry-proven drift-diffusion equations to model steady-state and transient behavior of charge carriers in semiconductor devices. Using advanced finite-element mesh generation algorithms, Lumerical DEVICE is capable of efficiently handling arbitrary geometries, allowing product engineers and research scientists to focus on innovating new integrated optoelectronic design concepts while being confident in the accuracy of the simulation results.. DEVICE provides users with a complete set of tools to design and evaluate semiconductor devices, including integrated process simulation, a comprehensive collection of physical material models, and robust numerical algorithms for device simulation. Coupled with Lumerical’s intuitive CAD layout and powerful scripting language, rapid and accurate development of leading-edge optoelectronics devices is now possible in one seamlessly integrated, highly productive environment. Decreased...

The new FMP framework enables researchers to describe via computer source code a material’s polarization and magnetization as a function of the electromagnetic field and other physical quantities. Release 8.5 is expected to contribute to the development of components in the fields of optical switching, integrated magneto-optical polarization control, quantum communications and silicon photonics owing to the wide array of nonlinear effects available in silicon. Flexible Material Plugin Method Provides Arbitrary Accuracy and Unrestricted Complexity Modular FMPs can be combined with Lumerical’s proprietary Multi-Coefficient Materials (MCMs), providing an extensible design environment for modeling complex nanophotonic systems. With MCMs offering the turn-key ability to generate accurate broadband material models, and the FMP providing an open framework for researchers to add onto...

FDTD Solutions Overview FDTD Solutions is a 3D Maxwell solver, capable of analyzing the interaction of UV, visible, and IR radiation with complicated structures employing wavelength scale features. FDTD Solutions is able to accurately take into account material dispersion over wide wavelength ranges via its proprietary Multi-coefficient Material modeling capabilities, enabling the end user to efficiently calculate device response over wide bandwidths. With a highly-optimized computational engine able to exploit multi-core computing systems in everything from laptops to high-performance computing clusters, and a built-in optimization framework to speed the generation of optimized nanophotonics devices, FDTD Solutions is the photonics design environment of choice among industry professionals.Key Benefits of FDTD Solutions Decreased product development costs via highly-accurate algorithms with built-in optimization...