Difference between revisions of "Associated function"
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$$ | $$ | ||
− | \gamma (z) = \sum _ {k=0 } ^ \infty | + | \gamma (z) = \sum _ { k=0 } ^ \infty |
− | + | ||
− | \frac{k}{b | + | |
+ | \frac{a _ k}{b _ k } z ^ {-(k+1)} | ||
$$ | $$ | ||
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f (z) = \sum _ {k=0 } ^ \infty | f (z) = \sum _ {k=0 } ^ \infty | ||
− | \frac{a ^ {k} }{k!} | + | \frac{a ^ {k} }{ {k!}} |
z ^ {k} | z ^ {k} | ||
$$ | $$ |
Revision as of 18:07, 6 April 2020
of a complex variable
A function which is obtained in some manner from a given function $ f(z) $ with the aid of some fixed function $ F(z) $. For example, if
$$ f (z) = \sum _ {k=0 } ^ \infty a _ {k} z ^ {k} $$
is an entire function and if
$$ F (z) = \sum _ {k=0 } ^ \infty b _ {k} z ^ {k} $$
is a fixed entire function with $ b _ {k} \neq 0 $, $ k \geq 0 $, then
$$ \gamma (z) = \sum _ { k=0 } ^ \infty \frac{a _ k}{b _ k } z ^ {-(k+1)} $$
is a function which is associated to $ f(z) $ by means of the function $ F(z) $; it is assumed that the series converges in some neighbourhood $ | z | > R $. The function $ f(z) $ is then represented in terms of $ \gamma (z) $ by the formula
$$ f (z) = \frac{1}{2 \pi i } \int\limits _ {| t | = R _ {1} > R } \gamma (t) F (zt) dt . $$
In particular, if
$$ f (z) = \sum _ {k=0 } ^ \infty \frac{a ^ {k} }{ {k!}} z ^ {k} $$
is an entire function of exponential type and $ F(z) = e ^ {z} $, then
$$ \gamma (z) = \sum _ {k=0 } ^ \infty a _ {k} z ^ {-(k+1)} $$
is the Borel-associated function of $ f(z) $( cf. Borel transform).
Associated function. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Associated_function&oldid=45288