Difference between revisions of "Mittag-Leffler"
From specialfunctionswiki
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− | * {{PaperReference|Mittag-Leffler Functions and Their Applications|2011|H.J. Haubold|author2=A.M. Mathai|author3=R.K. Saxena|next= | + | * {{PaperReference|Mittag-Leffler Functions and Their Applications|2011|H.J. Haubold|author2=A.M. Mathai|author3=R.K. Saxena|next=E (0,1)(z)=1/(1-z) for |z|<1}}: $(1.1)$ (has $\beta=1$ and uses the notation $E_{\alpha}$) and $(1.2)$ |
[[Category:SpecialFunction]] | [[Category:SpecialFunction]] |
Revision as of 21:21, 2 January 2018
The Mittag-Leffler function $E_{\alpha, \beta}$ is defined for $z, \alpha, \beta \in \mathbb{C}$ with $\mathrm{Re}(\alpha), \mathrm{Re}(\beta) > 0$ by the series $$E_{\alpha, \beta}(z)=\displaystyle\sum_{k=0}^{\infty} \dfrac{z^k}{\Gamma(\alpha k + \beta)},$$ where $\Gamma$ denotes the gamma function.
Properties
References
- H.J. Haubold, A.M. Mathai and R.K. Saxena: Mittag-Leffler Functions and Their Applications (2011)... (next): $(1.1)$ (has $\beta=1$ and uses the notation $E_{\alpha}$) and $(1.2)$