-- Input file for multimomlinear Tool
local Species = require "Tool.LinearSpecies"
local elcMass = 1
local elcCharge = -1
local ionMass = 1836.2
local ionCharge = 1
-- Electrons
elc1 = Species.Isothermal {
mass = elcMass, -- mass
charge = elcCharge, -- charge
density = 1.0, -- number density
velocity = {0.0, 0.1, 0.0}, -- velocity vector
temperature = 0.0, -- temperature
}
elc2 = Species.Isothermal {
mass = elcMass, -- mass
charge = elcCharge, -- charge
density = 1.0, -- number density
velocity = {0.0, -0.1, 0.0}, -- velocity vector
temperature = 0.0, -- temperature
}
-- Ions
ion = Species.Isothermal {
mass = ionMass, -- mass
charge = ionCharge, -- charge
density = 2.0, -- number density
velocity = {0.0, 0.0, 0.0}, -- velocity vector
temperature = 0.0, -- temperature
}
-- EM field
field = Species.Maxwell {
epsilon0 = 1.0, mu0 = 1.0,
electricField = {0.0, 0.0, 0.0}, -- background electric field
magneticField = {0.0, 0.0, 0.0}, -- background magnetic field
}
-- list of species to include in dispersion relation
speciesList = { elc1, elc2, ion }
-- List of wave-vectors for which to compute dispersion relation
kvectors = {}
local kcurr, kmax, NK = 0.0, 6.0, 401
dk = (kmax-kcurr)/(NK-1)
for i = 1, NK do
kvectors[i] = {kcurr, 0.0, 0.0} -- each k-vector is 3D
kcurr = kcurr + dk
end