Mild Solutions for Conformable Fractional Order Functional Evolution Equations Via Meir-Keeler Type Fixed Point Theorem
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Abstract
In this study, we delve into the realm of mild solutions for conformable fractional order functional evolution equations, focusing on cases where the fractional order is strictly greater than 1 and less than 2 within a separable Banach space. We demonstrate the existence, uniqueness, attractivity, and controllability of these solutions under local conditions. Our approach involves leveraging a contribution of Meir-Keeler's fixed point theorem alongside the principle of measures of noncompactness. To demonstrate the practical ramifications of our theoretical finds, we provide a specific example that underscores the relevance and applications of the established results.
Description
Keywords
Functional Differential Equation, Mild Solution, Finite Delay, Fixed Point, Condensing Operator, Measure Of Noncompactness, Conformable Fractional, Measure of Noncompact-Ness
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Scopus Q
OpenCitations Citation Count
2
Source
Volume
39
Issue
6
Start Page
1989
End Page
2002
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Citations
Scopus : 7
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