Journal
AIMS MATHEMATICS
Volume 7, Issue 7, Pages 12289-12302Publisher
AMER INST MATHEMATICAL SCIENCES-AIMS
DOI: 10.3934/math.2022682
Keywords
PCNLSE; exp[-phi(xi)]-expansion technique; unified solver technique; physical applications
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In this article, stochastic solutions for the perturbed chiral nonlinear Schrodinger equation (PCNLSE) forced by multiplicative noise are extracted using exp[-phi(xi)]-expansion and unified solver methods. These solutions are extremely viable in nonlinear optics, plasma physics, and other applied sciences.
In this article, we extract stochastic solutions for the perturbed chiral nonlinear Schrodinger equation (PCNLSE) forced by multiplicative noise in It (o) over cap sense with the aid of exp[-phi(xi)]-expansion and unified solver methods. The PCNLSE meditate on the quantum behaviour, like quantum features are closely related to its particular features. The proposed techniques introduce the closed form structure of waves in explicit form. The behaviour of the gained solutions are of qualitatively different nature, based on the physical parameters. The acquired solutions are extremely viable in nonlinear optics, superfluid, plasma physics, electromagnetism, nuclear physics, industrial studies and in many other applied sciences. We also illustrate the profile pictures of some acquired solutions to show the physical dynamical representation of them, utilizing Matlab release. The proposed techniques in this article can be implemented to other complex equations arising in applied sciences.
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