Uniform asymptotic expansions for Meixner polynomials

X. S. Jin; R. Wong

Uniform asymptotic expansions for Meixner polynomials

X. S. Jin
, R. Wong

Department of Mathematics

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

21 Citations (Scopus)

Abstract

Meixner polynomials m_n(x; β, c) form a postive-definite orthogonal system on the positive real line x > 0 with respect to a distribution step function whose jumps are (formula presented) Unlike classical orthogonal polynomials, they do not satisfy a second-order linear differential equation. In this paper, we derive two infinite asymptotic expansions for m_n(nα; β, c) as n → ∞. One holds uniformly for 0 <ε ≤ α ≤ 1 + a, and the other holds uniformly for 1 - b ≤ α ≤ M <∞, where a and h are two small positive quantities. Both expansions involve the parabolic cylinder function and its derivative. Our results include all five asymptotic formulas recently given by W. M. Y. Goh as special cases.

Original language	English
Pages (from-to)	113-150
Journal	Constructive Approximation
Volume	14
Issue number	1
Publication status	Published - 1998

Research Keywords

Meixner polynomials
Parabolic cylinder function
Steepest descent method
Uniform asymptotic expansions

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title = "Uniform asymptotic expansions for Meixner polynomials",

abstract = "Meixner polynomials mn(x; β, c) form a postive-definite orthogonal system on the positive real line x > 0 with respect to a distribution step function whose jumps are (formula presented) Unlike classical orthogonal polynomials, they do not satisfy a second-order linear differential equation. In this paper, we derive two infinite asymptotic expansions for mn(nα; β, c) as n → ∞. One holds uniformly for 0 <ε ≤ α ≤ 1 + a, and the other holds uniformly for 1 - b ≤ α ≤ M <∞, where a and h are two small positive quantities. Both expansions involve the parabolic cylinder function and its derivative. Our results include all five asymptotic formulas recently given by W. M. Y. Goh as special cases.",

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author = "Jin, \{X. S.\} and R. Wong",

year = "1998",

language = "English",

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pages = "113--150",

journal = "Constructive Approximation",

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T1 - Uniform asymptotic expansions for Meixner polynomials

AU - Jin, X. S.

AU - Wong, R.

PY - 1998

Y1 - 1998

N2 - Meixner polynomials mn(x; β, c) form a postive-definite orthogonal system on the positive real line x > 0 with respect to a distribution step function whose jumps are (formula presented) Unlike classical orthogonal polynomials, they do not satisfy a second-order linear differential equation. In this paper, we derive two infinite asymptotic expansions for mn(nα; β, c) as n → ∞. One holds uniformly for 0 <ε ≤ α ≤ 1 + a, and the other holds uniformly for 1 - b ≤ α ≤ M <∞, where a and h are two small positive quantities. Both expansions involve the parabolic cylinder function and its derivative. Our results include all five asymptotic formulas recently given by W. M. Y. Goh as special cases.

AB - Meixner polynomials mn(x; β, c) form a postive-definite orthogonal system on the positive real line x > 0 with respect to a distribution step function whose jumps are (formula presented) Unlike classical orthogonal polynomials, they do not satisfy a second-order linear differential equation. In this paper, we derive two infinite asymptotic expansions for mn(nα; β, c) as n → ∞. One holds uniformly for 0 <ε ≤ α ≤ 1 + a, and the other holds uniformly for 1 - b ≤ α ≤ M <∞, where a and h are two small positive quantities. Both expansions involve the parabolic cylinder function and its derivative. Our results include all five asymptotic formulas recently given by W. M. Y. Goh as special cases.

KW - Meixner polynomials

KW - Parabolic cylinder function

KW - Steepest descent method

KW - Uniform asymptotic expansions

UR - https://www.scopus.com/pages/publications/0032351204

UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-0032351204&origin=recordpage

M3 - RGC 21 - Publication in refereed journal

SN - 0176-4276

VL - 14

SP - 113

EP - 150

JO - Constructive Approximation

JF - Constructive Approximation

IS - 1

ER -

Uniform asymptotic expansions for Meixner polynomials

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Research Keywords

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