Difference between revisions of "Q-exponential e sub q"
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| − | The $q$-exponential $e_q$ is defined by the formula | + | The $q$-exponential $e_q$ is defined for $|z|<1$ by the formula |
| − | $$e_q(z) =\displaystyle\sum_{k=0}^{\infty} \dfrac{z^k}{(q;q)_k} | + | $$e_q(z) =\displaystyle\sum_{k=0}^{\infty} \dfrac{z^k}{(q;q)_k},$$ |
| − | Note that this function is different than the [[q-exponential | + | where $(q;q)_k$ denotes the [[q-shifted factorial]]. Note that this function is different than the [[q-exponential e sub 1/q |$q$-exponential $e_{\frac{1}{q}}$]]. |
=Properties= | =Properties= | ||
| − | + | [[Exponential e in terms of basic hypergeometric phi]] | |
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| − | + | [[Q-Euler formula for e sub q]] | |
| − | {{ | + | =References= |
| + | * {{PaperReference|q-Special functions, a tutorial|1994|Tom H. Koornwinder|prev=findme|next=findme}} | ||
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| + | [[Category:SpecialFunction]] | ||
Latest revision as of 03:30, 21 December 2016
The $q$-exponential $e_q$ is defined for $|z|<1$ by the formula $$e_q(z) =\displaystyle\sum_{k=0}^{\infty} \dfrac{z^k}{(q;q)_k},$$ where $(q;q)_k$ denotes the q-shifted factorial. Note that this function is different than the $q$-exponential $e_{\frac{1}{q}}$.
Properties
Exponential e in terms of basic hypergeometric phi
