Exponential map (discrete dynamical systems)

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File:Exponential Parameter Space Detail PSP Rays.png
Parameter plane of the complex exponential family f(z)=exp(z)+c with 8 external ( parameter) rays

In the theory of dynamical systems, the exponential map can be used as the evolution function of the discrete nonlinear dynamical system.[1]

Family

The family of exponential functions is called the exponential family.

Forms

There are many forms of these maps,[2] many of which are equivalent under a coordinate transformation. For example two of the most common ones are:

  • E_c : z \to e^z + c \,
  • E_\lambda : z \to \lambda * e^z

The second one can be mapped to the first using the fact that \lambda * e^z. = e^{z+ln(\lambda)}, so E_\lambda : z \to e^z + ln(\lambda) is the same under the transformation z=z+ln(\lambda). The only difference is that, due to multi-valued properties of exponentiation, there may be a few select cases that can only be found in one version. Similar arguments can be made for many other formulas.

References

  1. Dynamics of exponential maps by Lasse Rempe
  2. Lasse Rempe, Dierk Schleicher : Bifurcation Loci of Exponential Maps and Quadratic Polynomials: Local Connectivity, Triviality of Fibers, and Density of Hyperbolicity


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