Evaluating gradient of eigenvectors.

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Matt
Matt on 13 Feb 2018
Commented: Matt on 15 Feb 2018
Suppose I use Matlab's pde toolbox to solve an eigenvalue problem using FEM. Specifically I am using:
result=solvepdeeig(model,[0,10]);
eigenvectors = result.Eigenvectors;
eigenvalues = result.Eigenvalues;
Is there a way of evaluating the gradient of the computed eigenvectors, say using something similar to the
evaluateGradient
function?

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Accepted Answer

Ravi Kumar
Ravi Kumar on 14 Feb 2018
Hi Matt,
The values in eigenvectors are scaled values, with no option to re-scale them or normalize as per choice. Hence, they do not have a physical meaning. So evaluating gradients using them is not suggested.
Can you explain why do you need to take gradients of eigenvectors? I could suggest a workaround depending on your use case.
Regards, Ravi
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Matt
Matt on 14 Feb 2018
Thanks, I'll try it out. Looks ideal!
Matt
Matt on 15 Feb 2018
Works a treat, thank you very much!

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