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Plasma Simulation

Research and Development in Plasma Technologies

About Plasma Dynamics Simulation & Design Team

Plasma Dynamics Engineers and Scientists complete industrial missions by developing and applying validated, science-based capabilities in support of the current and future of Plasma related R&D. Our multidisciplinary teams perform applied physics research, modernizing the physics package and developing new models to advance physical and computational sciences relevant to industrial missions.

We make use of some of the powerful high-performance computing capabilities, modeling and simulating complex multi-dimensional physical system. Our engineers and physicists are the primary users of advanced machines and codes. In order to overcome fundamental limitations on platform peak speeds, we are also leveraging advances in machine learning (ML), artificial intelligence (AI) and cognitive simulation to create a force multiplier for our experimental designers.

Advanced manufacturing of complex systems requires manufacturing components that may not have been made with usual methods. We are partnering closely with engineers and production plants to lead most powerful manufacturing procedures ever exist to manufacture components.

Building an inclusive culture, where each of us can contribute to our fullest performance to get the maximum benefit from everyone’s ideas is a key culture of Plasma Dynamics ecosystem. Diversity is our key operational parameters that lead to most innovative outputs during most complex problems.

Plasma Dynamics

We are the translation of advanced science to Real in hand technologies.

Advanced Technology for Industry

Numerical Comsol Ansys Siemens star-ccm Simulation of Dense Plasma Focus Devices Plasma Dynamics use advanced electromagnetic FEA, CFD and particle-in-cell (PIC) codes, designed for executing multi-scale, plasma physics simulations. Based on the problem and its detail, we use special commercial code or even develop new codes and subroutines to capture the interaction between charged particles (electrons and ions) and external and self-generated electric and magnetic fields.

With Detailed Design and Comprehensive Optimization

Spacecraft and Satellite charging effects Numerical Simulation Comsol Ansys Siemens star-ccm Plasma Dynamics use advanced electromagnetic FEA, CFD and particle-in-cell (PIC) codes, designed for executing multi-scale, plasma physics simulations. Based on the problem and its detail, we use special commercial code or even develop new codes and subroutines to capture the interaction between charged particles (electrons and ions) and external and self-generated electric and magnetic fields.