I haven't been able to find an answer to this question anywhere, so I thought I should post it here. In doing a fixed-points/stability analysis, one is required to find the fixed points of a dynamical system that finding the eigenvalues of the corresponding Jacobian, etc… It is understood what to do when the eigenvalues have complex parts, negative, positive real parts, etc…
However, my question is what if the fixed points themselves are complex? All the examples I have seen involve fixed points of dynamical systems that are real. Does the stability analysis remain the same if the fixed points are complex?
Thank you.
Best Answer
Nothing changes on $\mathbb C^n$, provided that we understand that the conditions (linearization, eigenvalues, etc) are computed for the corresponding dynamics on $\mathbb R^{2n}$. Otherwise one would be tempted to compute the derivatives in $\mathbb C$, while one may even consider dynamics that are not holomorphic.
On the other hand, for an holomorphic dynamics on $\mathbb C^n$, you can simply replace the usual conditions for stability on $\mathbb R^n$ for analogous conditions (really the same) on $\mathbb C^n$, although using the derivative in $\mathbb C$.