SdPow

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Fig.1. Quadratic function (black curve) and two its superfunctions
Fig.2. \(u\!+\mathrm i v=\mathrm{SdPow}_2(x\!+\mathrm i y)\)


SdPow is specific superpower function, id est, the superfunction of the power function \(~z\mapsto z^a\!=\!\exp(\ln(z) \,a)~\)

For given parameter \(a\),

\(\mathrm{SdPow}_a(z)=\exp(a^z)\)

Usually, it is assumed, that \(a\!>\!1\).

Transfer function

Function \(F\!=\!\mathrm{SdPow}_a\) is superfunction for the specific power function \(T(z)\!=\!z^a\). The superfunction satisfies the transfer equation

\(T(F(z))=F(z\!+\!1)\)

For this specific transfer function \(T\), the two real-holomorphix solutions are SuPow and SdPow:

\(\mathrm{SdPow}_a(z)=\exp(-a^z)\)

\(\mathrm{SuPow}_a(z)=\exp(a^z)\)

For the power function both, the superfunctions and the Abel functions can be expressed as elementary functions. For \(a\!=\!2\), these functions are who functions are shown in Fig.1.

For the same \(a\!=\!2\), the complex map of function SdPow is shown in FIg.2.

References


Keywords

AdPow, Elementary function, Power function, SdPow, SuPow, Superfunction Superpower