Abstract
This work focuses on finding closed-form analytic solutions of a higher-dimensional fractional model, in conformable sense, known by the (4+1)-dimensional Fokas equation. Fractional partial differential equations(FPDEs)and systemscan describe heritable real-world occurrences. However, solving such modelscan be difficult, especially for nonlinearproblems. The homogeneous balancing method (HBM) is investigated and extended to handle the (4+1)-dimensional Fokas equation with Kerr law nonlinearity.The HBM has theability to solve linear and nonlinear fractional problems,incorporatingthe concepts of some fractional calculus principles, including fractional derivative techniques. It's important to note that there isn't a singleanduniversally applicable method to solve such equations due to their complexity. The specific form of the equation and the initial or boundary conditions influence the solution methodchosen. The results obtained from the extended HBM are compared to those in the literature to prove the strategy's efficacy. This paper proposes expanding the HB technique with result analysis to solve nonlinear FPDEs,demonstrating its feasibility and efficiency.
Recommended Citation
Tashtoush, Mohammad A.; Ibrahim, Israa A.; Taha, Wafaa M.; Dawi, Mizal H.; Jameel, Ali F.; and Az-Zo’bi, Emad A.
(2024)
"Various Closed-Form Solitonic Wave Solutions of Conformable Higher-Dimensional Fokas Model in Fluids and Plasma Physics,"
Iraqi Journal for Computer Science and Mathematics: Vol. 5:
Iss.
3, Article 18.
DOI: https://doi.org/10.52866/ijcsm.2024.05.03.027
Available at:
https://ijcsm.researchcommons.org/ijcsm/vol5/iss3/18
