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#################################
####### GENERAL PARAMETERS ######
#################################
max_step = 2500
amr.n_cell = 64 640
amr.max_grid_size = 128
amr.blocking_factor = 32
amr.max_level = 0
amr.plot_file = "plotfiles/plt"
amr.plot_int = 500
geometry.coord_sys = 0 # 0: Cartesian
geometry.is_periodic = 0 0 # Is periodic?
geometry.prob_lo = -125.e-6 -149.e-6
geometry.prob_hi = 125.e-6 1.e-6
#################################
############ NUMERICS ###########
#################################
algo.maxwell_fdtd_solver = ckc
warpx.verbose = 1
warpx.plot_raw_fields = 0
warpx.do_dive_cleaning = 0
warpx.use_filter = 1
warpx.do_pml = 1
warpx.pml_ncell = 10
warpx.cfl = .99
warpx.do_moving_window = 1
warpx.moving_window_dir = z
warpx.moving_window_v = 1. # in units of the speed of light
my_constants.lramp = 8.e-3
my_constants.pi = 3.141592653589793
my_constants.dens = 1e+23
interpolation.nox = 3
interpolation.noy = 3
interpolation.noz = 3
#################################
######### BOOSTED FRAME #########
#################################
warpx.gamma_boost = 10.0
warpx.boost_direction = z
warpx.do_boosted_frame_diagnostic = 1
warpx.num_snapshots_lab = 22
warpx.dt_snapshots_lab = 3.335640951981521e-11
#################################
############ PLASMA #############
#################################
particles.nspecies = 4
particles.species_names = driver plasma_e plasma_p beam
particles.use_fdtd_nci_corr = 1
particles.rigid_injected_species = driver beam
driver.charge = -q_e
driver.mass = m_e
driver.injection_style = "gaussian_beam"
driver.x_rms = 2.e-6
driver.y_rms = 2.e-6
driver.z_rms = 4.e-6
driver.x_m = 0.
driver.y_m = 0.
driver.z_m = -20.e-6
driver.npart = 1000
driver.q_tot = -3.e-11
driver.momentum_distribution_type = "gaussian"
driver.ux_m = 0.0
driver.uy_m = 0.0
driver.uz_m = 200000.
driver.ux_th = 2.
driver.uy_th = 2.
driver.uz_th = 20000.
driver.zinject_plane = 0.
driver.rigid_advance = true
driver.projected = true
driver.focused = false
plasma_e.charge = -q_e
plasma_e.mass = m_e
plasma_e.injection_style = "NUniformPerCell"
plasma_e.zmin = 0.e-6
plasma_e.zmax = 0.2
plasma_e.xmin = -70.e-6
plasma_e.xmax = 70.e-6
plasma_e.profile = parse_density_function
plasma_e.density_function(x,y,z) = "(z<lramp)*0.5*(1-cos(pi*z/lramp))*dens+(z>lramp)*dens"
plasma_e.num_particles_per_cell_each_dim = 1 1
plasma_e.momentum_distribution_type = "constant"
plasma_e.ux = 0.0
plasma_e.uy = 0.0
plasma_e.uz = 0.0
plasma_e.do_continuous_injection = 1
plasma_p.charge = q_e
plasma_p.mass = m_p
plasma_p.injection_style = "NUniformPerCell"
plasma_p.zmin = 0.e-6
plasma_p.zmax = 0.2
plasma_p.profile = parse_density_function
plasma_p.density_function(x,y,z) = "(z<lramp)*0.5*(1-cos(pi*z/lramp))*dens+(z>lramp)*dens"
plasma_p.xmin = -70.e-6
plasma_p.xmax = 70.e-6
plasma_p.num_particles_per_cell_each_dim = 1 1
plasma_p.momentum_distribution_type = "constant"
plasma_p.ux = 0.0
plasma_p.uy = 0.0
plasma_p.uz = 0.0
plasma_p.do_continuous_injection = 1
beam.charge = -q_e
beam.mass = m_e
beam.injection_style = "gaussian_beam"
beam.x_rms = .5e-6
beam.y_rms = .5e-6
beam.z_rms = 1.e-6
beam.x_m = 0.
beam.y_m = 0.
beam.z_m = -105.e-6
beam.npart = 1000
beam.q_tot = -3.e-13
beam.momentum_distribution_type = "gaussian"
beam.ux_m = 0.0
beam.uy_m = 0.0
beam.uz_m = 2000.
beam.ux_th = 2.
beam.uy_th = 2.
beam.uz_th = 200.
beam.zinject_plane = 0.
beam.rigid_advance = true
beam.projected = true
beam.focused = false
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