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A new family of two-variable polynomials based on hermite polynomials

  • Esra Erkuş-Duman EMAIL logo and Hakan Ciftci
Published/Copyright: August 9, 2022
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Mathematica Slovaca
From the journal Mathematica Slovaca Volume 72 Issue 4

Abstract

The aim of this paper is to introduce a new two-variable polynomials defined via Hermite polynomials. In order to construct some fundamental properties of these polynomials, we first derive a generating function relation. By using definition and this generating relation, we arrive at several recurrence relations, an integral representation, some implicit summation formulae, a symmetry identity for these new two-variable polynomials. Furthermore, we obtain some results which give various classes of multilinear and multilateral generating functions. Then, some special cases are presented. Finally, we also give a general class of these new polynomials and prove explicit closed-form formulae of them.

MSC 2010: 33C45
Keywords: Hermite polynomials; generating function; recurrence relation; bilinear and bilateral generating functions

Acknowledgement

The authors would like to thank two anonymous reviewers for providing insightful comments and reading the manuscript carefully.

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Received: 2021-04-23
Accepted: 2021-08-05
Published Online: 2022-08-09
Published in Print: 2022-08-26

© 2022 Mathematical Institute Slovak Academy of Sciences

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  2. Variants of Booleanness: Congruences of a partial frame versus those of its free frame
  3. Models, coproducts and exchangeability: Notes on states on Baire functions
  4. Inverse tangent series involving pell and pell-lucas polynomials
  5. A new family of two-variable polynomials based on hermite polynomials
  6. Decreasing property and complete monotonicity of two functions constituted via three derivatives of a function involving trigamma function
  7. On the solvability of a fourth-order differential evolution equation on singular cylindrical domain in R4
  8. Investigation of an implicit Hadamard fractional differential equation with Riemann-Stieltjes integral boundary condition
  9. Stability criteria for systems of two first-order linear ordinary differential equations
  10. A perturbed eigenvalue problem in exterior domain
  11. On extensions of bilinear maps
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  15. Partial actions on convergence spaces
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  17. Topologies generated by symmetric porosity on normed spaces
  18. The Alpha Power Rayleigh-G family of distributions
  19. An alternative for Laplace Birnbaum-Saunders distribution
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https://doi.org/10.1515/ms-2022-0060
Keywords for this article
Hermite polynomials; generating function; recurrence relation; bilinear and bilateral generating functions

Articles in the same Issue

  1. Regular Papers
  2. Variants of Booleanness: Congruences of a partial frame versus those of its free frame
  3. Models, coproducts and exchangeability: Notes on states on Baire functions
  4. Inverse tangent series involving pell and pell-lucas polynomials
  5. A new family of two-variable polynomials based on hermite polynomials
  6. Decreasing property and complete monotonicity of two functions constituted via three derivatives of a function involving trigamma function
  7. On the solvability of a fourth-order differential evolution equation on singular cylindrical domain in R4
  8. Investigation of an implicit Hadamard fractional differential equation with Riemann-Stieltjes integral boundary condition
  9. Stability criteria for systems of two first-order linear ordinary differential equations
  10. A perturbed eigenvalue problem in exterior domain
  11. On extensions of bilinear maps
  12. Refinement of seminorm and numerical radius inequalities of semi-Hilbertian space operators
  13. Weighted composition operators from the Besov space into nth weighted type spaces
  14. Fuzzy ideal topological vector spaces
  15. Partial actions on convergence spaces
  16. On quasi-small loop groups
  17. Topologies generated by symmetric porosity on normed spaces
  18. The Alpha Power Rayleigh-G family of distributions
  19. An alternative for Laplace Birnbaum-Saunders distribution
  20. Existence of positive solutions for boundary value problems with p-Laplacian operator
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