Optical soliton perturbation with fractional temporal evolution by extended modified auxiliary equation mapping



Document title: Optical soliton perturbation with fractional temporal evolution by extended modified auxiliary equation mapping
Journal: Revista mexicana de física
Database: PERIÓDICA
System number: 000447140
ISSN: 0035-001X
Authors: 1
2
3
3
4
Institutions: 1Taibah University, Faculty of Science, Medina. Arabia Saudita
2Harbin Institute of Technology, Department of Mathematics, Harbin, Heilongjiang. China
3Taif University, Ranyah University Collage, Taif. Arabia Saudita
4Alabama A & M University, Department of Physics, Chemistry and Mathematics, Birmingham, Alabama. Estados Unidos de América
Year:
Season: May-Jun
Volumen: 67
Number: 3
Pages: 403-414
Country: México
Language: Inglés
Document type: Artículo
Approach: Analítico, teórico
English abstract In this article, we discussed the analytical analysis of perturbed nonlinear fractional Schrödinger equation applying our newly introduced method named as “extended modified auxiliary equation mapping method(EMAEMM)”. By the application of our newly developed method, we have found a variety of new families of optical solitons in more general forms which are bright, semi half-bright, periodic, semi half- dark, combined, doubly periodic, dark, half bright, half dark with the usage of only three parameters which is the main different point of newly introduced technique. Our Newly obtained solutions have a profound impact on the improvement of new theories of fluid dynamics, mathematical physics, soliton dynamics, industrial studies, optical physics, mathematical biology, biomedical problems, quantum mechanics, nuclear physics, electromagnetism, and in some other physical and natural sciences. For a graphical understanding of newly obtained solutions, we have drawn the graphs in different dimensions with the help of mathematical solver Mathematica 10.4 to get a more clear picture of the dynamics of newly found solutions
Disciplines: Física y astronomía
Keyword: Física,
Representación gráfica,
Solitones ópticos,
Fraccional NLPSE
Keyword: Physics,
Graphical representation,
Optical solitons,
Fractional NLPSE
Full text: Texto completo (Ver HTML) Texto completo (Ver PDF)