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Title: Existence and Uniqueness of Solutions for Impulsive Fractional Partial Differential Equation Boundary Value Problems with theψ−Caputo Derivative under the Weak Topology.
Authors: Zineb BELLABES
Keywords: Caputo fractional derivative
Riemann-Liouville fractional derivative
vari- able order
impulsive differential equations,
thermistor problem
weak topology
De Blasi measure of weak non-compactness
Pet- tis integral
Issue Date: 2025
Abstract: In this thesis, we study existence, uniqueness, and stability results for several classes of fractional differential equations in Banach spaces. We consider initial value problems for sequentialψ-Caputo fractional Langevin equations, boundary value problems involving impulses with power law kernels, a variable order Caputo thermistor model, and variable order Riemann-Liouville boundary value problems with multi-point data. The analysis is carried out in the weak topology framework using the Pettis integral, the De Blasi mea- sure of weak noncompactness, and fixed-point theorems of M¨onch, Schauder, Banach con- traction, and Krasnoselskii. Existence is proved via M¨onch’s theorem, uniqueness via the Banach contraction principle, and generalized Ulam-Hyers-Rassias stability is established. For the variable order thermistor problem, existence and uniqueness are obtained by split- ting the order into piecewise constant subintervals and applying Schauder’s and Banach’s theorems. For the Riemann-Liouville problem, the method of upper and lower solutions combined with Schauder’s theorem yields positive solutions in a fractional Sobolev space. Numerical examples illustrate the theoretical findings
URI: http://dspace.univ-relizane.dz/home/handle/123456789/988
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