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In mathematics, the Mehler–Heine formula describes the asymptotic behavior of the classical orthogonal polynomials as the index tends to infinity, near the edges of the support of the weight. The formula complements the Darboux formulae which describe the asymptotics in the interior and outside the support.

For Legendre polynomials it was introduced by Mehler (1868) and Heine (1861).

Legendre polynomials

The simplest case of the Mehler–Heine formula states that

\lim _{n\to \infty }P_{n}{\Bigl (}\cos {z \over n}{\Bigr )}=J_{0}(z)

where P_n is the Legendre polynomial of order n, and J₀ a Bessel function. The limit is uniform over z in an arbitrary bounded domain in the complex plane.

Jacobi polynomials

The generalization to Jacobi polynomials P^α,β
_n is given by (Szegő 1939, 8.1) as follows:

\lim _{n\to \infty }n^{-\alpha }P_{n}^{\alpha ,\beta }\left(\cos {\frac {z}{n}}\right)=\left({\frac {z}{2}}\right)^{-\alpha }J_{\alpha }(z)~.

References

Heine, E. (1861), Handbuch der Kugelfunktionen. Theorie und Anwendung. Neudruck. (in German), Georg Reimer, Berlin, Zbl 0103.29304
Mehler, F. G. (1868), "Ueber die Vertheilung der statischen Elektricität in einem von zwei Kugelkalotten begrenzten Körper.", Journal für Reine und Angewandte Mathematik (in German), 68: 134–150, doi:10.1515/crll.1868.68.134, ISSN 0075-4102
Szegő, Gábor (1939), Orthogonal Polynomials, Colloquium Publications, vol. XXIII, American Mathematical Society, ISBN 978-0-8218-1023-1, MR0372517

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	In mathematics, the '''Mehler–Heine formula''' describes the asymptotic behavior of the [[orthogonal polynomials#The classical orthogonal polynomials\|classical orthogonal polynomials]] as the index tends to infinity, near the edges of the support of the weight. The formula complements the Darboux formulae which ~~describes~~ the asymptotics in the interior and outside the support.		In mathematics, the '''Mehler–Heine formula''' describes the asymptotic behavior of the [[orthogonal polynomials#The classical orthogonal polynomials\|classical orthogonal polynomials]] as the index tends to infinity, near the edges of the support of the weight. The formula complements the Darboux formulae which describe the asymptotics in the interior and outside the support.

	For [[Legendre polynomials]] it was introduced by {{harvs\|txt\|authorlink=G. F. Mehler\|last=Mehler\|year=1868}} and {{harvs\|txt\|authorlink=Eduard Heine\|last=Heine\|year=1861}}.		For [[Legendre polynomials]] it was introduced by {{harvs\|txt\|authorlink=G. F. Mehler\|last=Mehler\|year=1868}} and {{harvs\|txt\|authorlink=Eduard Heine\|last=Heine\|year=1861}}.