Non-local time problem for the Rayleigh--Stokes type fractional equations
Ravshan Ashurov, Yusuf Fayziyev, Nuriddin Khushvaktov
Abstract
Despite the growing interest in fractional generalizations of classical fluid dynamics equations, the fractional Rayleigh--Stokes problem has previously been studied almost exclusively using the Riemann--Liouville fractional derivative. To the authors' knowledge, an explicit analytical form of the solution for the Caputo derivative case has not been established in the literature, and before this work, no systematic study of the existence, uniqueness, or regularity properties of this formulation has been conducted. In this paper, we fill this gap by considering the Rayleigh--Stokes equation with the Caputo fractional time derivative of order $ρ\in (0, \, 1)$. Using the Laplace transform and Fourier methods, as well as special functions, we perform a rigorous well-posedness analysis of the corresponding initial boundary-value, non-local, and backward problems.