Journal
FRACTAL AND FRACTIONAL
Volume 6, Issue 10, Pages -Publisher
MDPI
DOI: 10.3390/fractalfract6100545
Keywords
quantum calculus; fractional calculus; fractional differential equation; analytic function; subordination and superordination; univalent function; fractional differential operator
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Special functions, typically named after early scientists, have specific applications in mathematical physics or other areas of mathematics. By using q-fractional calculus, the geometric properties of the generalized Prabhakar fractional differential operator in the open unit disk are investigated. The methodology involves the use of differential subordination and superordination theory, resulting in the organization of numerous fractional differential inequalities and the study of solutions to special kinds of q-fractional differential equations.
A special function is a function that is typically entitled after an early scientist who studied its features and has a specific application in mathematical physics or another area of mathematics. There are a few significant examples, including the hypergeometric function and its unique species. These types of special functions are generalized by fractional calculus, fractal, q-calculus, (q, p)-calculus and k-calculus. By engaging the notion of q-fractional calculus (QFC), we investigate the geometric properties of the generalized Prabhakar fractional differential operator in the open unit disk del := {xi is an element of C : vertical bar xi vertical bar < 1}. Consequently, we insert the generalized operator in a special class of analytic functions. Our methodology is indicated by the usage of differential subordination and superordination theory. Accordingly, numerous fractional differential inequalities are organized. Additionally, as an application, we study the solution of special kinds of q-fractional differential equation.
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