complex eigenvalues

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zayed
zayed on 5 Dec 2011
Hi, I have a square symmetric matrix (5,5) with complex entries,the output eigenvalues when I use eig(T) are all complex .I want to determine the smallest negative eigenvalue.I don't know how ,any one can help.
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Sean de Wolski
Sean de Wolski on 5 Dec 2011
smallest as in the closest to infinity or closest to zero?
zayed
zayed on 5 Dec 2011
smallest is the minimum one,so if it's negative it will be closest to minus infinity,if it's positive it will be closest to zero.

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Accepted Answer

Walter Roberson
Walter Roberson on 5 Dec 2011
"smallest" is not defined for complex numbers. "negative" is not defined for complex numbers either.
You can compare real parts, or you can compare imaginary parts, or you can compare magnitudes.
[vals, idx] = min(real(E));
E(idx)
or
[vals, idx] = min(imag(E));
E(idx)
or
[vals, idx] = min(abs(E));
E(idx)
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Walter Roberson
Walter Roberson on 6 Dec 2011
hypot has been in versions since sometime in 2008 or before; I have not traced it further.
When I read Loren's blog about hypot, I see in the comments that abs() is also implemented robustly, so there would be no advantage to using hypot() over using abs(), so you might as well not bother.
http://blogs.mathworks.com/loren/2008/02/07/why-hypot/
If you are looking for the eigenvalue with the smallest magnitude (such as min(abs(E)) would find), then you could instead use
gamma = eigs(T,1,'sm');
which will find just the one eigenvalue. Smallest magnitude could be positive or negative for the real or imaginary components, though -- the eigenvalue closest to 0. There is unfortunately no way with eigs to pick out just the complex eigenvalue with the real component or imaginary component closest to negative infinity: you will have to use one of the above min() forms for that.
zayed
zayed on 6 Dec 2011
Did you see previous comment a bout EIGIFP.

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