
The solution of pseudo initial value differential equations, either ordinary or partial (including those of fractional nature), requires the development of adequate analytical methods, complementing those well established in the ordinary differential equation setting. A combination of techniques, involving procedures of umbral and of operational nature, has been demonstrated to be a very promising tool in order to approach within a unifying context non-canonical evolution problems. This article covers the extension of this approach to the solution of pseudo-evolutionary equations. We will comment on the explicit formulation of the necessary techniques, which are based on certain time- and operator ordering tools. We will in particular demonstrate how Volterra-Neumann expansions, Feynman-Dyson series and other popular tools can be profitably extended to obtain solutions for fractional differential equations. We apply the method to several examples, in which fractional calculus and a certain umbral image calculus play a role of central importance.
Initial value problems for PDEs with pseudodifferential operators, FOS: Physical sciences, fractional differential equations, [MATH] Mathematics [math], Mathematical Physics (math-ph), Orthogonal polynomials and functions of hypergeometric type (Jacobi, Laguerre, Hermite, Askey scheme, etc.), umbral image techniques, QA1-939, pseudo-evolutionary differential equations, 34A08, 26A33 (Primary) 05A40 (Secondary), Mathematics, Mathematical Physics, operational methods
Initial value problems for PDEs with pseudodifferential operators, FOS: Physical sciences, fractional differential equations, [MATH] Mathematics [math], Mathematical Physics (math-ph), Orthogonal polynomials and functions of hypergeometric type (Jacobi, Laguerre, Hermite, Askey scheme, etc.), umbral image techniques, QA1-939, pseudo-evolutionary differential equations, 34A08, 26A33 (Primary) 05A40 (Secondary), Mathematics, Mathematical Physics, operational methods
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