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In mathematics, the Askey–Wilson polynomials (or q-Wilson polynomials) are a family of orthogonal polynomials introduced by Richard Askey and James A. Wilson as q-analogs of the Wilson polynomials.^[1] They include many of the other orthogonal polynomials in 1 variable as special or limiting cases, described in the Askey scheme. Askey–Wilson polynomials are the special case of Macdonald polynomials (or Koornwinder polynomials) for the non-reduced affine root system of type ( $C \lor 1, C 1$ ), and their 4 parameters $a$ , $b$ , $c$ , $d$ correspond to the 4 orbits of roots of this root system.

They are defined by

p_{n}(x)=p_{n}(x;a,b,c,d\mid q):=a^{-n}(ab,ac,ad;q)_{n}\;_{4}\phi _{3}\left[{\begin{matrix}q^{-n}&abcdq^{n-1}&ae^{i\theta }&ae^{-i\theta }\\ab&ac&ad\end{matrix}};q,q\right]

where $φ$ is a basic hypergeometric function, $x = cos θ$ , and $(,,,) n$ is the q-Pochhammer symbol. Askey–Wilson functions are a generalization to non-integral values of $n$ .

Proof

This result can be proven since it is known that

p_{n}(\cos {\theta })=p_{n}(\cos {\theta };a,b,c,d\mid q)

and using the definition of the q-Pochhammer symbol

p_{n}(\cos {\theta })=a^{-n}\sum _{\ell =0}^{n}q^{\ell }\left(abq^{\ell },acq^{\ell },adq^{\ell };q\right)_{n-\ell }\times {\frac {\left(q^{-n},abcdq^{n-1};q\right)_{\ell }}{(q;q)_{\ell }}}\prod _{j=0}^{\ell -1}\left(1-2aq^{j}\cos {\theta }+a^{2}q^{2j}\right)

which leads to the conclusion that it equals

a^{-n}(ab,ac,ad;q)_{n}\;_{4}\phi _{3}\left[{\begin{matrix}q^{-n}&abcdq^{n-1}&ae^{i\theta }&ae^{-i\theta }\\ab&ac&ad\end{matrix}};q,q\right]

References

^ Askey & Wilson (1985).

Askey, Richard; Wilson, James (1985), "Some basic hypergeometric orthogonal polynomials that generalize Jacobi polynomials", Memoirs of the American Mathematical Society, 54 (319): iv+55, doi:10.1090/memo/0319, ISBN 978-0-8218-2321-7, ISSN 0065-9266, MR 0783216
Gasper, George; Rahman, Mizan (2004), Basic hypergeometric series, Encyclopedia of Mathematics and its Applications, vol. 96 (2nd ed.), Cambridge University Press, ISBN 978-0-521-83357-8, MR 2128719
Koornwinder, Tom H.; Wong, Roderick S. C.; Koekoek, Roelof; Swarttouw, René F. (2010), "Askey-Wilson class", in Olver, Frank W. J.; Lozier, Daniel M.; Boisvert, Ronald F.; Clark, Charles W. (eds.), NIST Handbook of Mathematical Functions, Cambridge University Press, ISBN 978-0-521-19225-5, MR 2723248.
Koornwinder, Tom H. (2012), "Askey-Wilson polynomial", Scholarpedia, 7 (7): 7761, Bibcode:2012SchpJ...7.7761K, doi:10.4249/scholarpedia.7761

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[FOOTNOTEAskeyWilson1985-1] Askey & Wilson (1985).

[1]

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+In mathematics, the '''Askey–Wilson polynomials''' (or '''''q''-Wilson polynomials''') are a family of [[orthogonal polynomials]] introduced by [[Richard Askey]] and [[James A. Wilson]] as [[q-analog]]s of the [[Wilson polynomials]].{{sfnp|Askey|Wilson|1985}} They include many of the other orthogonal polynomials in 1 variable as [[Special case|special]] or [[limiting case (mathematics)|limiting case]]s, described in the [[Askey scheme]]. Askey–Wilson polynomials are the special case of [[Macdonald polynomials]] (or [[Koornwinder polynomials]]) for the non-reduced [[affine root system]] of type ({{math|''C''{{su|b=1|p=&or;}}, ''C''<sub>1</sub>}}), and their 4 parameters {{mvar|a}}, {{mvar|b}}, {{mvar|c}}, {{mvar|d}} correspond to the 4 orbits of roots of this root system.
-In mathematics, the '''Askey-Wilson polynomials''' are the polynomials
-:<math>p_n(x;a,b,c|q) =
+They are defined by
-(ab,ac,ad;q)_na^{-n}\;_{4}\phi_3 \left[\begin{matrix}
+:<math>p_n(x) =
+p_n(x;a,b,c,d\mid q) :=
+a^{-n}(ab,ac,ad;q)_n\;_{4}\phi_3 \left[\begin{matrix}
 q^{-n}&abcdq^{n-1}&ae^{i\theta}&ae^{-i\theta} \\
 ab&ac&ad \end{matrix}
 ; q,q \right] </math>
-where &phi; is a [[basic hypergeometric function]].
+where {{mvar|φ}} is a [[basic hypergeometric function]], {{math|''x'' {{=}} cos &theta;}}, and {{math|(,,,)<sub>''n''</sub>}} is the [[q-Pochhammer symbol|''q''-Pochhammer symbol]]. '''Askey–Wilson functions''' are a generalization to non-integral values of {{mvar|n}}.
-They were introduced by {{harvtxt|Askey|Wilson|1985}} as ''q''-analogues of the <sub>4</sub>''F''<sub>3</sub> polynomials of Wilson.
+== Proof ==
+This result can be proven since it is known that
+:<math>p_n(\cos{\theta}) = p_n(\cos{\theta};a,b,c,d\mid q)</math>
+and using the definition of the ''q''-Pochhammer symbol
+:<math>p_n(\cos{\theta})=
+a^{-n}\sum_{\ell=0}^{n}q^{\ell}\left(abq^{\ell},acq^{\ell},adq^{\ell};q\right)_{n-\ell}\times\frac{\left(q^{-n},abcdq^{n-1};q\right)_{\ell}}{(q;q)_{\ell}}\prod_{j=0}^{\ell-1}\left(1-2aq^j\cos{\theta}+a^2q^{2j}\right)</math>
+which leads to the conclusion that it equals
+:<math>a^{-n}(ab,ac,ad;q)_n\;_{4}\phi_3 \left[\begin{matrix}
+q^{-n}&abcdq^{n-1}&ae^{i\theta}&ae^{-i\theta} \\
+ab&ac&ad \end{matrix}
+; q,q \right] </math>
+==See also==
+*[[Askey scheme]]
+==References==
+{{reflist}}
+*{{Citation | author-link1=Richard Askey | last1=Askey | first1=Richard | author-link2=James A. Wilson | last2=Wilson | first2=James | title=Some basic hypergeometric orthogonal polynomials that generalize Jacobi polynomials | isbn=978-0-8218-2321-7 | mr=783216 | year=1985 | journal=Memoirs of the American Mathematical Society | issn=0065-9266 | volume=54 | issue=319 | pages=iv+55|url=https://books.google.com/books?id=9q9o03nD_xsC | doi=10.1090/memo/0319}}
+*{{Citation | last1=Gasper | first1=George | last2=Rahman | first2=Mizan | title=Basic hypergeometric series | publisher=[[Cambridge University Press]] | edition=2nd | series=Encyclopedia of Mathematics and its Applications | isbn=978-0-521-83357-8 | mr=2128719 | year=2004 | volume=96}}
+*{{dlmf |id=18.28 |title=Askey-Wilson class |first=Tom H. |last=Koornwinder |first2=Roderick S. C. |last2=Wong |first3=Roelof |last3=Koekoek |first4=René F. |last4=Swarttouw}}
+*{{Citation | first=Tom H. | last=Koornwinder | title=Askey-Wilson polynomial | journal=Scholarpedia | volume=7 | year=2012 | issue=7 | pages=7761 | doi=10.4249/scholarpedia.7761 | bibcode=2012SchpJ...7.7761K | doi-access=free }}
+[[Category:Q-analogs]]
+[[Category:Hypergeometric functions]]
+[[Category:Orthogonal polynomials]]
+{{polynomial-stub}}
-[[Category: special functions]]
-{{stub}}