my current code is below.
What I have is two sets of data phi and theta both 18x30 and I have a for loop running from 1 to 30 which are the 30 columns of my data. Each of these individual columns will produce a matrix 'B' for me. The matrix 'B' is produced after going through the 18 rows of each column.
The problem I have is that I need to multiply all the resulting 'B' matrices for each of the 18 rows with each other in order to get a final matrix for each of the 30 columns, that is why I have set A(:,:,i) = eye(2) so that my first matrix will multiply by A. But I don't want to store A or B for each loop, instead what I want is that on the first loop of i my matrix B will multiply the identity matrix A. Then that matrix A will multiply the next matrix B...with the result of each multiplication being carried forward to the next matrix B that will be calculated, so the multiplications will get done as the program loops. That's why I have the line:
A(:,:,i) = A.*B;
but it doesn't seem to work. I get an error message saying the dimensions must match.
At the end of the program I want to be able to access each of the 30 matrices using a command like: A(:,:,3), for example, to get my 2x2 matrix for the 3rd column.
Hope that was clear enough!
theta = dlmread('theta.dat'); phi = dlmread('phi.dat'); ne = 1.7; no = 1.5; d = 0.000001; w = 0.000000555; for i = 1:30 A(:,:,i) = eye(2); for j = 1:18 nx =((cos(theta(j,i)).^2)/(no^2) + ((sin(theta(j,i)).^2)/(ne^2))).^(-1/2); D = (2*pi*(nx-no)*d)/w; x = ((cos(phi(j,i))).^2).*exp((-1i.*D)/2) + ((sin(phi(j,i))).^2).*exp((1i.*D)/2); y = 1i*(sin(D/2)).*sin(2*phi(j,i)); z = ((cos(phi(j,i))).^2).*exp((1i.*D/2) + ((sin(phi(j,i))).^2).*exp((-1i.*D)/2)); B = [x y;y z]; A(:,:,i) = A.*B; end end