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# Maximum number of time steps
max_step = 500
# number of grid points
amr.n_cell = 32 512
# Maximum allowable size of each subdomain in the problem domain;
# this is used to decompose the domain for parallel calculations.
amr.max_grid_size = 128
# Maximum level in hierarchy (for now must be 0, i.e., one level in total)
amr.max_level = 0
# Geometry
geometry.dims = RZ
geometry.prob_lo = 0.e-6 -20.e-6
geometry.prob_hi = 40.e-6 20.e-6
boundary.field_lo = none absorbing_silver_mueller
boundary.field_hi = absorbing_silver_mueller absorbing_silver_mueller
# Verbosity
warpx.verbose = 1
warpx.n_rz_azimuthal_modes = 2
# Algorithms
warpx.cfl = 1.0
warpx.use_filter = 0
warpx.do_moving_window = 0
# Order of particle shape factors
algo.particle_shape = 1
# Laser
lasers.names = laser1
laser1.profile = Gaussian
laser1.position = 0. 0. 0.e-6 # This point is on the laser plane
laser1.direction = 0. 0. 1. # The plane normal direction
laser1.polarization = 1. 1. 0. # The main polarization vector
laser1.e_max = 1.e1 # Maximum amplitude of the laser field (in V/m)
laser1.profile_waist = 10.e-6 # The waist of the laser (in meters)
laser1.profile_duration = 10.e-15 # The duration of the laser (in seconds)
laser1.profile_t_peak = 20.e-15 # The time at which the laser reaches its peak (in seconds)
laser1.profile_focal_distance = 1.e-6 # Focal distance from the antenna (in meters)
laser1.wavelength = 2.e-6 # The wavelength of the laser (in meters)
# Diagnostics
diagnostics.diags_names = diag1
diag1.intervals = 50
diag1.diag_type = Full
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