A 3D immersed finite element method with non-homogeneous interface flux jump for applications in particle-in-cell simulations of plasma–lunar surface interactions
Motivated by the need to handle complex boundary conditions efficiently and accurately in
particle-in-cell (PIC) simulations, this paper presents a three-dimensional (3D) linear …
particle-in-cell (PIC) simulations, this paper presents a three-dimensional (3D) linear …
Three‐dimensional immersed finite‐element method for anisotropic magnetostatic/electrostatic interface problems with nonhomogeneous flux jump
Anisotropic diffusion is important to many different types of common materials and media.
Based on structured Cartesian meshes, we develop a three‐dimensional (3D) …
Based on structured Cartesian meshes, we develop a three‐dimensional (3D) …
A fully decoupled iterative method with three-dimensional anisotropic immersed finite elements for Kaufman-type discharge problems
C Lu, J Wan, Y Cao, X He - Computer Methods in Applied Mechanics and …, 2020 - Elsevier
In order to simulate the Kaufman-type discharge problems, a fully decoupled iterative
method with anisotropic immersed finite elements on Cartesian meshes is proposed …
method with anisotropic immersed finite elements on Cartesian meshes is proposed …
[HTML][HTML] Modeling and an immersed finite element method for an interface wave equation
The electromagnetic field, which is governed by Maxwell's equation, plays a key role in
plasma simulation. In this article, we first derive the interface conditions when we rewrite the …
plasma simulation. In this article, we first derive the interface conditions when we rewrite the …
PIFE-PIC: Parallel immersed finite element particle-in-cell for 3-D kinetic simulations of plasma-material interactions
This paper presents a recently developed particle simulation code package PIFE-PIC, which
is a novel three-dimensional (3-D) parallel immersed finite element (IFE) particle-in-cell …
is a novel three-dimensional (3-D) parallel immersed finite element (IFE) particle-in-cell …
An implicit particle-in-cell model based on anisotropic immersed-finite-element method
This paper develops a two-dimensional implicit particle-in-cell model, which considers
algorithms without and with magnetic field, based on the anisotropic immersed-finite …
algorithms without and with magnetic field, based on the anisotropic immersed-finite …
A Huygens immersed-finite-element particle-in-cell method for modeling plasma-surface interactions with moving interface
Surface evolution is an unavoidable issue in engineering plasma applications. In this article
an iterative method for modeling plasma-surface interactions with moving interface is …
an iterative method for modeling plasma-surface interactions with moving interface is …
An immersed selective discontinuous Galerkin method in particle-in-cell simulation with adaptive Cartesian mesh and polynomial preserving recovery
In this paper, a selective discontinuous Galerkin (SDG) method and a polynomial preserving
recovery (PPR) method are developed and integrated with the immersed-finite-element …
recovery (PPR) method are developed and integrated with the immersed-finite-element …
[PDF][PDF] AN IMMERSED-FINITE-ELEMENT PARTICLE-IN-CELL SIMULATION TOOL FOR PLASMA SURFACE INTERACTION.
A novel Immersed-Finite-Element Particle-in-Cell (IFE-PIC) simulation tool is presented in
this paper for plasma surface interaction where charged plasma particles are represented by …
this paper for plasma surface interaction where charged plasma particles are represented by …
[PDF][PDF] CFIRM: AN INTEGRATED CODE PACKAGE FOR THE LOW-TEMPERATURE PLASMA SIMULATION ON STRUCTURED GRIDS.
This paper presents a recently developed full kinetic particle simulation code package,
which is a two-dimensional highly integrated and universal framework for low-temperature …
which is a two-dimensional highly integrated and universal framework for low-temperature …