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basic_modal_env.jl
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using Luna
a = 13e-6
gas = :Ar
pres = 5
flength = 15e-2
τfwhm = 30e-15
λ0 = 800e-9
energy = 1e-6
modes = (
Capillary.MarcatiliMode(a, gas, pres, n=1, m=1, kind=:HE, ϕ=0.0, loss=false),
Capillary.MarcatiliMode(a, gas, pres, n=1, m=2, kind=:HE, ϕ=0.0, loss=false)
)
nmodes = length(modes)
grid = Grid.EnvGrid(flength, λ0, (160e-9, 3000e-9), 1e-12)
energyfun, energyfunω = Fields.energyfuncs(grid)
densityfun = let dens0=PhysData.density(gas, pres)
z -> dens0
end
ionpot = PhysData.ionisation_potential(gas)
ionrate = Ionisation.ionrate_fun!_ADK(ionpot)
responses = (Nonlinear.Kerr_env(PhysData.γ3_gas(gas)),)
#Nonlinear.PlasmaCumtrapz(grid.to, grid.to, ionrate, ionpot))
inputs = Fields.GaussField(λ0=λ0, τfwhm=τfwhm, energy=energy)
Eω, transform, FT = Luna.setup(grid, densityfun, responses, inputs, modes, :y; full=false)
linop = LinearOps.make_const_linop(grid, modes, λ0)
statsfun = Stats.default(grid, Eω, modes, linop, transform; gas=gas, windows=((150e-9, 300e-9),))
output = Output.MemoryOutput(0, grid.zmax, 201, statsfun)
Luna.run(Eω, grid, linop, transform, FT, output)
##
Plotting.pygui(true)
Plotting.stats(output)
Plotting.prop_2D(output)
Plotting.time_1D(output)
Plotting.spec_1D(output)