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Accurate sets of solitary solutions for the quadratic–cubic fractional nonlinear Schrödinger equation

Raghda A. M. Attia, Mostafa M. A. Khater, A‎. ‎El-Sayed Ahmed, M.A. El‐Shorbagy

2021AIP Advances34 citationsDOIOpen Access PDF

Abstract

The analytical and semi-analytical solutions to the quadratic–cubic fractional nonlinear Schrödinger equation are discussed in this research article. The model’s fractional formula is transformed into an integer-order model by using a new fractional operator. The theoretical and computational approaches can now be applied to fractional models, thanks to this transition. The application of two separate computing schemes yields a large number of novel analytical strategies. The obtained solutions secure the original and boundary conditions, which are used to create semi-analytical solutions using the Adomian decomposition process, which is often used to verify the precision of the two computational methods. All the solutions obtained are used to describe the shifts in a physical structure over time in cases where the quantum effect is present, such as wave-particle duality. The precision of all analytical results is tested by re-entering them into the initial model using Mathematica software 12.

Topics & Concepts

Quadratic equationAdomian decomposition methodNonlinear systemApplied mathematicsInteger (computer science)Boundary value problemMathematicsFractional calculusDecomposition method (queueing theory)Schrödinger equationOperator (biology)Duality (order theory)Mathematical analysisPhysicsComputer scienceQuantum mechanicsTranscription factorDiscrete mathematicsProgramming languageGeneChemistryBiochemistryRepressorGeometryFractional Differential Equations SolutionsNonlinear Waves and SolitonsNonlinear Photonic Systems