Services
Discover Our Expertise
Consulting and software for advanced simulation with real engineering impact
Electromagnetics
Finite-element simulation of inductors, busbars, induction heating systems, transformers, and electric motors. We help clients improve efficiency, manage thermal limits, predict losses across the operating envelope, and shorten design iteration cycles through targeted numerical experiments.
Photonics
Time-harmonic and time-domain Maxwell simulation of waveguides, resonators, antennas, and lasers. We support device characterization, modal analysis, and full-wave optimization to identify performance margins and reduce risk before prototyping.
Plasmas
Coupled electromagnetic and plasma simulation for etching, coating, surface treatment, lighting, and electric propulsion. We model discharge physics, gas-phase chemistry, and surface interactions to inform process control, reactor design, and scale-up decisions.
Working on a specific simulation challenge? We are happy to scope the problem with you and advise on the most effective approach — schedule a call.
Case Studies
Selected Projects
Recent simulation work across our focus areas
Electric Motor Optimization
Finite-element analysis of stator and rotor geometry to maximize torque density and minimize losses across the operating envelope.
Cavity Filter Analysis
Time-harmonic Maxwell simulation of a resonant RF cavity filter to characterize insertion loss, return loss, and mode structure.
Tetrode Field Emitter Study
Coupled electrostatic and plasma simulation of a tetrode field-emitter device to study emission current and grid screening.
Products
Our Products
μfem
A finite-element application framework for scalable multi-physics simulations in electromagnetics, photonics, and plasmas.
PlasmaProp
Calculate the thermodynamic and transport properties of a thermal plasma.
Contact
Get In Touch With Us
Address
〒607-8131
Otsuka Minamimizo-chō 1-9
Yamashina-ku, Kyoto-shi, Kyoto, Japan