Certain Results Associated with q-Fractional Integrals and Some Application

Fractional differential equations have recently received a great attention by various researchers due to their excellence and effective role in different fields of science including physics, control theory, engineering, signal processing and fractional dynamics as well. In this paper we aim to discuss Al-Salam fractional q-integral operator on certain q-analogues of Bessel functions. We give definitions and derive results and formulas utilizing a series form of certain fractional integral. Further, apply the generalized new fractional integral to q-Bessel functions of types, one, two and three as well. Multiplication of more two q-Bessel functions of same order is also considered to generalize the singular case.

[1]  Hamzeh H. Zureigat,et al.  Fourth-Order Numerical Solutions for a Fuzzy Time-Fractional Convection–Diffusion Equation under Caputo Generalized Hukuhara Derivative , 2022, Fractal and Fractional.

[2]  S. Momani,et al.  New Bright and Kink Soliton Solutions for Fractional Complex Ginzburg–Landau Equation with Non-Local Nonlinearity Term , 2022, Fractal and Fractional.

[3]  S. Momani,et al.  Novel bright and kink optical soliton solutions of fractional Lakshmanan-Porsezian-Daniel equation with kerr law nonlinearity in conformable sense , 2022, Fractals.

[4]  S. Momani,et al.  Effective Analytical Computational Technique for Conformable Time-Fractional Nonlinear Gardner Equation and Cahn-Hilliard Equations of Fourth and Sixth Order Emerging in Dispersive Media , 2022, Journal of Function Spaces.

[5]  S. Araci,et al.  A pseudo-spectral method based on reproducing kernel for solving the time-fractional diffusion-wave equation , 2022, Advances in Continuous and Discrete Models.

[6]  M. Al‐Smadi,et al.  Abundant Exact Travelling Wave Solutions for a Fractional Massive Thirring Model Using Extended Jacobi Elliptic Function Method , 2022, Fractal and Fractional.

[7]  S. Momani,et al.  Fractional-order COVID-19 pandemic outbreak: Modeling and stability analysis , 2021, International Journal of Biomathematics.

[8]  S. Al-Omari The q-Sumudu transform and its certain properties in a generalized q-calculus theory , 2021 .

[9]  Iqbal M. Batiha,et al.  Dynamics analysis of fractional-order Hopfield neural networks , 2020 .

[10]  S. Al‐Omari,et al.  q-Analogues and properties of the Laplace-type integral operator in the quantum calculus theory , 2020, Journal of Inequalities and Applications.

[11]  J. Tariboon Quantum Calculus , 2020, The Journal of King Mongkut's University of Technology North Bangkok.

[12]  S. Al‐Omari,et al.  On a q‐Laplace–type integral operator and certain class of series expansion , 2020, Mathematical Methods in the Applied Sciences.

[13]  S. Araci,et al.  On weighted q-Daehee polynomials with their applications , 2019, Indagationes Mathematicae.

[14]  S. Al-Omari Certain results related to the N-transform of a certain class of functions and differential operators , 2018 .

[15]  D. Baleanu,et al.  Quaternion fourier integral operators for spaces of generalized quaternions , 2018, Mathematical Methods in the Applied Sciences.

[16]  D. Baleanu,et al.  Some results for Laplace-type integral operator in quantum calculus , 2018 .

[17]  K. Q. S. Al-Omari On q-Analogues of the Natural Transform of Certain q-Bessel Functions and Some Application , 2017 .

[18]  S. Al-Omari On q-analogues of the Mangontarum transform for certain q-Bessel functions and some application , 2016 .

[19]  P. Agarwal,et al.  Some general properties of a fractional Sumudu transform in the class of Boehmians , 2016 .

[20]  S. Al-Omari On q-analogues of Mangontarum transform of some polynomials and certain class of H-functions , 2016 .

[21]  A. Salem,et al.  The $q$-analogue of the $E_{2;1}$-transform and its applications , 2016 .

[22]  Junesang Choi,et al.  REAL COVERING OF THE GENERALIZED HANKEL-CLIFFORD TRANSFORM OF FOX KERNEL TYPE OF A CLASS OF BOEHMIANS , 2015 .

[23]  Faruk Uçar,et al.  q-Sumudu Transforms of q-Analogues of Bessel Functions , 2014, TheScientificWorldJournal.

[24]  S. Araci,et al.  On the extended Kimʼs p-adic q-deformed fermionic integrals in the p-adic integer ring , 2013 .

[25]  S. Al-Omari ON THE APPLICATION OF NATURAL TRANSFORMS , 2013 .

[26]  A. Kılıçman,et al.  An estimate of Sumudu transforms for Boehmians , 2013 .

[27]  Paul W. Eloe,et al.  Fractional q-Calculus on a time scale , 2007 .

[28]  A. Lavagno,et al.  q-Deformed structures and nonextensive statistics: a comparative study , 2002 .

[29]  Donam Youm q-deformed conformal quantum mechanics , 2000, hep-th/0007114.

[30]  Page,et al.  Information in black hole radiation. , 1993, Physical review letters.

[31]  西本 勝之,et al.  Some Applications of Fractional Calculus , 1984 .

[32]  Mourad E. H. Ismail,et al.  The zeros of basic Bessel functions, the functions Jv + ax(x), and associated orthogonal polynomials☆ , 1982 .

[33]  Waleed A. Al-Salam,et al.  A fractional Leibniz $q$-formula , 1975, Pacific Journal of Mathematics.

[34]  Ravi P. Agarwal,et al.  Certain fractional q-integrals and q-derivatives , 1969, Mathematical Proceedings of the Cambridge Philosophical Society.

[35]  W. Al-salam Some Fractional q-Integrals and q-Derivatives , 1966, Proceedings of the Edinburgh Mathematical Society.

[36]  S. D. Purohit,et al.  q-LAPLACE TRANSFORM FOR PRODUCT OF GENERAL CLASS OF q-POLYNOMIALS AND q-ANALOGUE OF I-FUNCTION , 2020 .

[37]  F. Uçar,et al.  On q-Sumudu Transforms of Certain q-Polynomials , 2013 .

[38]  M Rajkovic Predrag,et al.  Fractional integrals and derivatives in q-calculus , 2007 .

[39]  W. Hahn Die mechanische Deutung einer geometrischen Differenzgleichung , 1953 .

[40]  Wolfgang Hahn,et al.  Beiträge zur Theorie der Heineschen Reihen. Die 24 Integrale der hypergeometrischen q‐Differenzengleichung. Das q‐Analogon der Laplace‐Transformation , 1949 .

[41]  F. H. Jackson The Application of Basic Numbers to Bessel's and Legendre's Functions , 1905 .