A Skeleton for MPI Time-Dependent program
=========================================
T.M. Tran   SPC/EPFL
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&BASIC
  job_time=144000.0, extra_time=360.0,
  nrun=5,  !# of steps
  nlres=f,
  femorder=2,2,
  ngauss=4,4,
  nlppform=.TRUE.
  nlxg=f,       ! Display graphical interface
  nlclassical=t, ! Solve classical equations of motion
  dt=8E-12,     !timestep [s]
  nz=128,        !# of intervals in z
  nnr=10,30,30  !# of intervals between radii(1) and radii(2), between radii(2) and radii(3) and between radii(3) and radii(4)
  it0d=1,
  it2d=10,
  itparts=30000,
  itgraph=10,
  resfile='teststable126.h5'

  radii=0.0,4e-3,25e-3,0.16  !radius of inner metallic wall, plasma boundaries and outer metallic wall
  plasmadim=-0.16, 0.16, 0.0070, 0.0074,     !zmin zmax rmin rmax of initial plasma loading
  distribtype=2          ! 1: uniform RZ gaussian in V, 2: stable eq 4.85 from Davidson
  lz=-0.32,0.32,    		       !Cylinder length

  nplasma=264600 !132300,   		! 100000# of superparticles
  nblock=60,
  nlPhis=f,           ! Deactivate calculation of self electric field
!  nplasma=100
  potinn=0,       		!potential at inner wall [V]
  potout=0,     !30000,      		!potential at outer wall [V]
  B0=0.21,     			!Davidson chapter 4 formula 4.89 [T]
  Rcurv=1.5,!1.001,           !Davidson chapter 4 formula 4.89 
  width=0.64,
  n0=-5e14, dt=8E-13                    !Initial plasma density in plasmadim
!  n0=-4E16, dt=8E-12
!  n0=-5.e15, dt=8E-12,
!  n0=-3.e19, dt=8e-13,
!  n0=-5.e8
  temp=10000,                   !Initial temperature of plasma [K] (thermal velocity)
  H0=3.2e-14,
  P0=8.78e-25,
/