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Askey–Wilson polynomials

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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. 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
1, C1), 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 q ) := a n ( a b , a c , a d ; q ) n 4 ϕ 3 [ q n a b c d q n 1 a e i θ a e i θ a b a c a d ; q , q ] {\displaystyle p_{n}(x)=p_{n}(x;a,b,c,d\mid q):=a^{-n}(ab,ac,ad;q)_{n}\;_{4}\phi _{3}\left}

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 θ ) = p n ( cos θ ; a , b , c , d q ) {\displaystyle 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 θ ) = a n = 0 n q ( a b q , a c q , a d q ; q ) n × ( q n , a b c d q n 1 ; q ) ( q ; q ) j = 0 1 ( 1 2 a q j cos θ + a 2 q 2 j ) {\displaystyle 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 ( a b , a c , a d ; q ) n 4 ϕ 3 [ q n a b c d q n 1 a e i θ a e i θ a b a c a d ; q , q ] {\displaystyle a^{-n}(ab,ac,ad;q)_{n}\;_{4}\phi _{3}\left}

See also

References

  1. Askey & Wilson (1985).


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