Plasma Simulation in Extreme Regimes
USimHEDP is a unique computational fluid dynamics (CFD) code that accurately simulates plasma in extreme temperature and pressure conditions. With a range of meshing options, and visualization in multiple dimensionalities, USimHEDP captures electron and ion dynamics with advanced coupling to electromagnetic fields.
USimHEDP efficiently handles the broad range of conditions in high energy density laboratory experiments in order to simulate magnetic reconnection, dense plasma focus devices, and nanoparticle synthesis. Created by computational physicists familiar with the extraordinary conditions of high energy density plasmas, USimHEDP is the complete tool for plasma simulation in extreme regimes.
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USimHEDP Advantages
- Fluid Dynamics Code for Plasma in Extreme Conditions
- Solves on Structured or Unstructured Meshes
- Algorithms for Ion and Electron Dynamics
- Visualization in Multiple Dimensionalities
- Powerful and Versatile Post-Processing
- High Performance Computing Capable
- Documented Accuracy
- Robust Documentation and Tutorials
- Superior Customer Support
USimHEDP Capabilities
- Euler Equations
- Ideal Magnetohydrodynamic Equations
- Gas Dynamic Magnetohydrodynamics
- Separate Densities For Ions And Electrons
- Separate Velocities For Ions And Electrons
- Separate Temperature For Ions And Electrons
- Anisotropic Temperatures For Ions And Electrons
- Full Maxwell’s Equations
- Anisotropic Diffusion
- Species Collisions
- Isotropic And Anisotropic Poisson Solver (Linear And Non-Linear)
- Ideal Gas Equation Of State
- General Equation Of State
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Applications for USimHEDP
Dense Plasma Focus Devices
Magnetic Reconnection
Nanoparticle Synthesis
Plasma Torches
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