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I have a complex matrix A (NxN). In Matlab eig(A) will give me all the complex eigenvalues of the matrix. Now I am interesting in finding the absolute value (r) and the argument (\phi) of each complex eigenvalues (each eigenvalue has its own r=abs(Z) and \phi=arg(Z)) . How can I write the following product expression:

\prod_j (sin(\phi_j)+r^(1/2)_j where the index j run over all the eigenvalues of the matrix A.

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To get r and phi, simply use the Matlab functions abs and angle, like so ...

z = eig(rand(5));
r = abs(z)
phi = angle(z)

Then you can do whatever you need to do with the resulting vectors.

For example, the product of the quantity sin(phi) + sqrt(r) for all phi and r pairs would be:

prod(  sin(phi)  +  sqrt(r)  )

(Note, vectorization of the sin and sqrt function removes the need for any looping.)

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Thank you for that. I have a question if, suppose I have a vector V=(v1, how can I compute the product: \pi_j(sin(v_j)) where j run from 1 to n? did u understand my question? – bill Feb 1 '12 at 21:23
As well as I understand your initial question, I have added additional content to the answer. – Pursuit Feb 2 '12 at 22:21
Thanks Pursuit I got the idea. – bill Feb 3 '12 at 16:12

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