Beam-driven wakefield production simulation
max_step = 300
amr.n_cell = 1024 1024 1024
amr.max_level = 0
hipace.max_time = 0.3/clight
diagnostic.output_period = 1
hipace.verbose = 1
hipace.depos_order_xy = 2
hipace.dt = adaptive
hipace.nt_per_betatron = 30
geometry.is_periodic = true true false # Is periodic?
geometry.prob_lo = -250.e-6 -250.e-6 -250.e-6 # physical domain
geometry.prob_hi = 250.e-6 250.e-6 110.e-6
beams.names = driver witness
driver.position_mean = 0. 0. 0.
driver.position_std = 2.e-6 2.e-6 30.e-6
driver.injection_type = fixed_weight
driver.num_particles = 1000000
driver.total_charge = .6e-9
driver.u_mean = 0. 0. 1000.
driver.u_std = 2. 2. 10.
driver.do_symmetrize = 1
witness.position_mean = 0. 0. -160.e-6
witness.position_std = 2.e-6 2.e-6 5.e-6
witness.injection_type = fixed_weight
witness.num_particles = 1000000
witness.total_charge = .2e-9
witness.u_mean = 0. 0. 1000.
witness.u_std = 2. 2. 10.
witness.do_symmetrize = 1
plasmas.names = electron ion
electron.density(x,y,z) = 2.e22
electron.ppc = 1 1
electron.u_mean = 0.0 0.0 0.
electron.element = electron
ion.density(x,y,z) = 2.e22
ion.ppc = 1 1
ion.u_mean = 0.0 0.0 0.
ion.element = H
diagnostic.diag_type = xz