Keywords:
electrostatics, particle in cell, sheath, box bounding, internal boundary
This example computes the fields and particles in a box, with an interior probe, modeled as a particle absorber and a constant-voltage (Dirichlet) boundary condition. There is an immobile, background neutralizing charge density. The electrons move to the walls and the probe, creating sheaths at all interfaces.
This simulation can be performed with a VSimBase license.
The Langmuir Probe example is accessed from within VSimComposer by the following actions:
All of the properties and values that create the simulation are now available in the Setup Window as shown in Fig. 461. You can expand the tree elements and navigate through the various properties, making any changes you desire. The right pane shows a 3D view of the geometry, if any, as well as the grid, if actively shown. To show or hide the grid, expand the Grid element and select or deselect the box next to Grid.
Constants are set up to allow setting the electron temperature in eV (ELEC_TEMP_EV), the electron density (NOM_DENS_E), the number of cells (NCELLS_X, NCELLS_Y) in the x and y directions, the number of particles per cell (PPC), and the size of the simulation (LEN_X, LEN_Y) in the x and y directions.
After performing the above actions, continue as follows:
After performing the above actions, continue as follows:
To view the electric potential, expand Scalar Data in the Data Overview tab and select Phi. The potential in the visualization window resembles that shown in Fig. 463.
To view the electrons and sheaths, expand the Particle Data, expand electrons and select electrons. Move the dump slider forward in time to see the formation of the sheaths as seen in Fig. 464.
Try adding in another geometry for inclusion of the support rod or try changing the geometry to represent a different probe.