3. To run the code, use HeLaZ/wk/local_run.m and run it to set up the parameters and the results folder
4. Then go to the results folder and launch HeLaZ using mpirun -np num_procs ./../../../bin/helaz num_p num_kr
5. You can obtain various plots and gifs using HeLaZ/wk/analysis_2D.m once the simulation is done. To select the correct output file, run parameters*.m with the corresponding simulation parameters and then run analysis_2D.m (everything with matlab from wk/)
6. The current simulation can be stopped at any moment by writing a file named "stop" in the simulation directory
// Comment : For some collision operators (Sugama and Full Coulomb) you have to run COSOlver from B.J.Frei first in order to generate the required matrices in HeLaZ/iCa folder.
# Changelog
3. HeLaZ 3D
// 3.1 (WIP) Implementation of mirror force and test for linear ZF damping
3.2 Stopping file procedure like in GBS is added
3.1 Implementation of mirror force
3.0 HeLaZ is now 3D and works like HeLaZ 2D if Nz = 1, the axis were renamed (r,z) -> (x,y,z) and now the parallel direction is ez. All arrays have been extended, diagnostics and analysis too. The linear coefficients are now precomputed with lin_coeff_and_geometry routines.
