On Implicit Time–Fractal–Fractional Differential Equation
Copyright policy )On Implicit Time–Fractal–Fractional Differential Equation
An implicit time–fractal–fractional differential equation involving the Atangana’s fractal–fractional derivative in the sense of Caputo with the Mittag–Leffler law type kernel is studied. Using the Banach fixed point theorem, the well-posedness of the solution is proved. We show that the solution exhibits an exponential growth bound, and, consequently, the long-time (asymptotic) property of the solution. We also give examples to illustrate our problem.
- Alabama State University United States
- University of Hafr Al-Batin Saudi Arabia
well-posedness, fractal–fractional operators, QA1-939, well-posedness; exponential growth bound; fractal–fractional operators; Mittag–Leffler type kernel, Mathematics, exponential growth bound, Mittag–Leffler type kernel
well-posedness, fractal–fractional operators, QA1-939, well-posedness; exponential growth bound; fractal–fractional operators; Mittag–Leffler type kernel, Mathematics, exponential growth bound, Mittag–Leffler type kernel
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