Tune into this webinar to learn how to model capacitively coupled plasmas (CCPs) in the COMSOL Multiphysics® software using a revolutionary new computational method.
This method computes the periodic steady-state solution much faster than traditional methods. In addition, the new method allows the DC self-bias to be computed in a natural way, enables parametric spaces to be quickly explored, and can be coupled to a matching network. The method computes the full nonlinear solution to the problem, so all harmonics are included in the solution.
The new interface and method will be demonstrated live in the software. You can ask questions throughout the webinar or at the end during the Q&A session.
Register for Capacitively Coupled Plasma Modeling with COMSOL® Webinar
COMSOL, Inc. Daniel Smith is a project manager at COMSOL for the Plasma, Microfluidics, MEMS, Particle Tracing, Ray Optics, Molecular Flow, and Semiconductor modules. Previously, he worked at MKS Instruments, where he modeled and optimized various types of systems. He has a master's degree in both applied mathematics and numerical computing.