#################################
####### GENERAL PARAMETERS ######
#################################
max_step = 100
amr.n_cell =  256
amr.max_grid_size = 64   # maximum size of each AMReX box, used to decompose the domain
amr.blocking_factor = 32 # minimum size of each AMReX box, used to decompose the domain
geometry.dims = 1
geometry.prob_lo     =  -56.e-6    # physical domain
geometry.prob_hi     =   12.e-6
amr.max_level = 0 # Maximum level in hierarchy (1 might be unstable, >1 is not supported)

#################################
####### Boundary condition ######
#################################
boundary.field_lo = pec
boundary.field_hi = pec

#################################
############ NUMERICS ###########
#################################
warpx.verbose = 1
warpx.do_dive_cleaning = 0
warpx.use_filter = 1
warpx.cfl = 0.9 # if 1., the time step is set to its CFL limit
warpx.do_moving_window = 1
warpx.moving_window_dir = z # Only z is supported for the moment
warpx.moving_window_v = 1.0 # units of speed of light
warpx.do_dynamic_scheduling = 0
warpx.serialize_initial_conditions = 1

# Order of particle shape factors
algo.particle_shape = 3

#################################
############ PLASMA #############
#################################
particles.species_names = electrons

electrons.species_type = electron
electrons.injection_style = "NUniformPerCell"
electrons.num_particles_per_cell_each_dim = 10
electrons.zmin =  10.e-6
electrons.profile = constant
electrons.density = 2.e23  # number of electrons per m^3
electrons.momentum_distribution_type = "at_rest"
electrons.do_continuous_injection = 1
electrons.addRealAttributes = orig_z
electrons.attribute.orig_z(x,y,z,ux,uy,uz,t) = "z"
electrons.addIntegerAttributes = regionofinterest
electrons.attribute.regionofinterest(x,y,z,ux,uy,uz,t) = " (z>12.0e-6) * (z<13.0e-6)"

#################################
############ PLASMA #############
#################################
lasers.names        = laser1
laser1.profile      = Gaussian
laser1.position     = 0. 0. 9.e-6        # This point is on the laser plane
laser1.direction    = 0. 0. 1.           # The plane normal direction
laser1.polarization = 0. 1. 0.           # The main polarization vector
laser1.e_max        = 16.e12             # Maximum amplitude of the laser field (in V/m)
laser1.profile_waist = 5.e-6             # The waist of the laser (in m)
laser1.profile_duration = 15.e-15        # The duration of the laser (in s)
laser1.profile_t_peak = 30.e-15          # Time at which the laser reaches its peak (in s)
laser1.profile_focal_distance = 100.e-6  # Focal distance from the antenna (in m)
laser1.wavelength = 0.8e-6               # The wavelength of the laser (in m)

# Diagnostics
diagnostics.diags_names = diag1
diag1.intervals = 100
diag1.diag_type = Full
diag1.fields_to_plot = Ex Ey Ez Bx By Bz jx jy jz rho

# Reduced Diagnostics
warpx.reduced_diags_names               = FP

FP.type = FieldProbe
FP.intervals = 10
FP.integrate = 0
FP.probe_geometry = Line
FP.z_probe = -56e-6
FP.z1_probe = 12e-6
FP.resolution = 100
FP.do_moving_window_FP = 1
