Abstract
<p>Matrix theory is essential for addressing practical problems and executing computational tasks. Matrices related to Hermite polynomials are essential due to their applications in quantum mechanics, numerical analysis, probability, and signal processing. Their orthogonality, recurrence relations, and spectral properties make them a valuable tool for both theoretical research and practical applications. From a different perspective, we introduced a variant of the Hermite matrix that incorporates triple factorials and demonstrated that this matrix satisfies various properties. By utilizing effective matrix algebra techniques, various algebraic properties of this matrix have been determined, including the product formula, inverse matrix and eigenvalues. Additionally, we extended this matrix to a more generalized form and derived several identities.</p>
Publisher
American Institute of Mathematical Sciences (AIMS)
Reference48 articles.
1. P. Agarwal, R. Goyal, T. Kim, S. Momani, Certain extended hypergeometric matrix functions of two or three variables, Adv. Stud. Contemp. Math., 33 (2023), 95–106.
2. R. Aggarwala, M. P. Lamoureux, Inverting the Pascal matrix plus one, Amer. Math. Montly, 109 (2002), 371–377. https://doi.org/10.1080/00029890.2002.11920898
3. I. Akkus, G. Kizilaslan, Generalization of a statistical matrix and its factorization, Commun. Stat.-Theory Meth., 50 (2021), 963–978. https://doi.org/10.1080/03610926.2019.1645854
4. I. Akkus, G. Kizilaslan, L. Verde-Star, A unified approach to generalized Pascal-like matrices: $q$-analysis, Linear Algebra Appl., 673 (2023), 138–159. https://doi.org/10.1016/j.laa.2023.05.011
5. M. Bayat, H. Teimoori, The linear algebra of the generalized Pascal functional matrix, Linear Algebra Appl., 295 (1999), 81–89. https://doi.org/10.1016/S0024-3795(99)00062-2