warpx.zmax_plasma_to_compute_max_step = 0.0031

amr.n_cell =  32 32 64
amr.max_grid_size = 64
amr.blocking_factor = 32
amr.max_level = 0

geometry.coord_sys   = 0                  # 0: Cartesian
geometry.is_periodic = 1  1   0            # Is periodic?
geometry.prob_lo     = -128.e-6 -128.e-6  -40.e-6
geometry.prob_hi     =  128.e-6  128.e-6   0.96e-6

algo.current_deposition = esirkepov
algo.charge_deposition = standard
algo.field_gathering = energy-conserving
algo.particle_pusher = vay
algo.maxwell_solver = ckc
interpolation.nox = 3
interpolation.noy = 3
interpolation.noz = 3
warpx.use_filter = 1
warpx.cfl = 1.
warpx.do_pml = 0

warpx.do_moving_window = 1
warpx.moving_window_dir = z
warpx.moving_window_v = 1.0 # in units of the speed of light
warpx.serialize_ics = 1

warpx.gamma_boost = 10.
warpx.boost_direction = z
warpx.do_back_transformed_diagnostics = 1
warpx.num_snapshots_lab = 4
warpx.dz_snapshots_lab = 0.001
warpx.back_transformed_diag_fields= Ex Ey Ez By rho

particles.species_names = electrons ions beam
particles.use_fdtd_nci_corr = 1

electrons.charge = -q_e
electrons.mass = m_e
electrons.injection_style = NUniformPerCell
electrons.num_particles_per_cell_each_dim = 1 1 1
electrons.momentum_distribution_type = "gaussian"
electrons.xmin = -120.e-6
electrons.xmax =  120.e-6
electrons.ymin = -120.e-6
electrons.ymax =  120.e-6
electrons.zmin = 0.
electrons.zmax = .003
electrons.profile = constant
electrons.density = 3.5e24
electrons.do_continuous_injection = 1
electrons.do_back_transformed_diagnostics = 1

ions.charge = q_e
ions.mass = m_p
ions.injection_style = NUniformPerCell
ions.num_particles_per_cell_each_dim = 1 1 1
ions.momentum_distribution_type = "gaussian"
ions.xmin = -120.e-6
ions.xmax =  120.e-6
ions.ymin = -120.e-6
ions.ymax =  120.e-6
ions.zmin = 0.
ions.zmax = .003
ions.profile = constant
ions.density = 3.5e24
ions.do_continuous_injection = 1
ions.do_back_transformed_diagnostics = 1

beam.charge = -q_e
beam.mass = m_e
beam.injection_style = "gaussian_beam"
beam.x_rms = 1.e-6
beam.y_rms = 1.e-6
beam.z_rms = .2e-6
beam.x_m = 0.
beam.y_m = 0.
beam.z_m = -20.e-6
beam.npart = 1000
beam.q_tot = -1.e-14
beam.momentum_distribution_type = "gaussian"
beam.ux_m = 0.0
beam.uy_m = 0.0
beam.uz_m = 200000.
beam.ux_th = .2
beam.uy_th = .2
beam.uz_th = 20.

lasers.names        = laser1
laser1.profile      = Gaussian
laser1.position     = 0. 0. -0.1e-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        = 2.e12       # Maximum amplitude of the laser field (in V/m)
laser1.profile_waist = 45.e-6       # The waist of the laser (in meters)
laser1.profile_duration = 20.e-15   # The duration of the laser (in seconds)
laser1.profile_t_peak = 40.e-15    # The time at which the laser reaches its peak (in seconds)
laser1.profile_focal_distance = 0.5e-3  # Focal distance from the antenna (in meters)
laser1.wavelength = 0.81e-6         # The wavelength of the laser (in meters)

slice.dom_lo     = -128.e-6  0.0  -40.e-6
slice.dom_hi     =  128.e-6  0.0  0.96e-6
slice.coarsening_ratio = 1 1 1
slice.plot_int = -1
slice.num_slice_snapshots_lab = 4
slice.dt_slice_snapshots_lab = 3.3356409519815207e-12
slice.particle_slice_width_lab = 2.e-6

# Diagnostics
diagnostics.diags_names = diag1
diag1.intervals = 10000
diag1.diag_type = Full