Usage
multilayer(wavelength = 2 * pi/k0, k0 = 2 * pi/wavelength, angle = asin(q), q = sin(angle), epsilon = list(incident = 1.5^2, 1.33), thickness = c(0, 0), polarisation = c("p", "s"), d = 1, dout = d, ...)
Arguments
wavelength
[vector] wavelength in nm
k0
[vector] wavevector in nm^-1
angle
[vector] incident angles in radians
q
[vector] normalised incident in-plane wavevector
epsilon
list of N+2 dielectric functions, each of length 1 or length(wavelength)
thickness
vector of N+2 layer thicknesses, first and last are dummy
polarisation
[character] switch between p- and s- polarisation
d
vector of distances where LFIEF are evaluated from each interface
dout
vector of distances where LFIEF are evaluated outside the stack