what is the matlab code for ploting dispersion against wavelength (for chromatic dispersion)?
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D=(-lamda*3*10^8)*(d^2(neff)/d(lamda)^2)
2 Comments
Hiro Yoshino
on 27 Dec 2022
whad does "d" stand for? Is neff the refractive index?
Ahmed
on 28 Dec 2022
Yes neff the refractive index
The second derivative
Accepted Answer
5 Comments
Ahmed
on 28 Dec 2022
Ahmed
on 28 Dec 2022
As always, my pleasure!
For numeric data, I would do something like this —
Lambda=[0.8 0.9 1 1.2 1.3 1.4 1.5 1.55 1.6 1.7];
n_eff=[1.4338 1.4275 1.4211 1.4073 1.4 1.3924 1.3845 1.3804 1.3763 1.3678 1.3650];
% dn_effdlambda = gradient(n_eff) ./ gradient(Lambda)
dn_effdlambda = gradient(n_eff(1:end-1)) ./ gradient(Lambda);
D = (-Lambda/3*10^8) .* dn_effdlambda.^2;
figure
plot(Lambda,D)
grid
xlabel('\lambda')
ylabel('D')
There appears to be a missing λ value, so I shortened 
by one element to calculate the derivative.
by one element to calculate the derivative. .
Ahmed
on 29 Dec 2022
Star Strider
on 29 Dec 2022
As always, my pleasure!
More Answers (1)
Let me use SiO2 as an example.
data = readtable("SiO2.txt");
lambda = data.Wavelength_nm_;
n = data.n;
c = 3e8;
plot(lambda,n);
xlabel("\lambda (nm)");
Here is how to visualize D for you:
dn_dlambda = gradient(n,5); % 1st order
d2n_dlambda2 = gradient(dn_dlambda,5); % 2nd order
D = -lambda/c.*d2n_dlambda2; % your D
plot(lambda,D)
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