A 3D immersed finite element method with non-homogeneous interface flux jump for applications in particle-in-cell simulations of plasma-lunar surface interactions.
Daoru HanPu WangXiaoming HeTao LinJoseph WangPublished in: J. Comput. Phys. (2016)
Keyphrases
- finite element method
- numerical simulations
- finite element
- elastic properties
- finite difference method
- scanning electron microscope
- diffuse optical tomography
- numerical solution
- boundary conditions
- vector field
- numerical methods
- temperature field
- theoretical analysis
- boundary element method
- virtual environment
- heat transfer
- finite element model
- computational fluid dynamics
- simulation model
- objective function