Your search keyword '"Rezazadeh, Hadi"' showing total 25 results

1. Implementation of optical soliton behavior of the space–time conformable fractional Vakhnenko–Parkes equation and its modified model.

Author

Mabrouk, S. M., Rezazadeh, Hadi, Ahmad, Hijaz, Rashed, A. S., Demirbilek, Ulviye, and Gepreel, Khaled A.

Subjects

*ORDINARY differential equations, *FRACTIONAL differential equations, *PARTIAL differential equations, *FIBER optics, *SPACETIME, *SOLITONS, *THEORY of wave motion

Abstract

Fractional differential equations are being used to define numerous physical phenomena instead of conventional ordinary or partial differential equations. The secret is to get more generalization of the analysis, hence its solutions. The applications vary between electrical circuit modeling, oscillating circuits, shallow water behavior, viscous fluids, solution transportation, control theory and ultrafast optics. Sine–Gordon Expansion (SGE) Method is being employed hereafter to fully investigate the space–time conformable fractional Vakhnenko–Parkes equation and its modified version. Based on SGE method, the fractional models are transformed into an equivalent ordinary differential equation. The solutions are very important in studying the behavior of ultrafast optics in fibers or waveguides and the wave propagation throughout fiber optics. The solutions are formatted as solitons and are illustrated graphically. The illustrations show that the traveling waves inside fiber optics behave like solitons with traveling peak values according to the wave velocity. One other mode of propagation is to travel in kink shapes. Additionally, the ultrafast optical waves may propagate in shockwaves mode if the waves propagate at ultra-high speeds. [ABSTRACT FROM AUTHOR]

Published

2024

2. New optical soliton solutions to magneto-optic waveguides.

Author

Rezazadeh, Hadi, Ali, Khalid K., Sahoo, S., Vahidi, Javad, and Inc, Mustafa

Subjects

*SOLITONS, *REFRACTIVE index, *WAVEGUIDES

Abstract

In this article, based on the concepts of the extended tanh expansion method, the general nonlinear magneto-optic waveguides that maintain parabolic-nonlocal law of refractive index is discussed. Then, the physical properties and structures of these obtained solutions are analyzed by means of some graphics. The obtained results can be used in describing the substantial understanding of the studious structures as well as other related non-linear physical structures. [ABSTRACT FROM AUTHOR]

Published

2022

3. Traveling-wave solutions of the Klein–Gordon equations with M-fractional derivative.

Author

Houwe, Alphonse, Rezazadeh, Hadi, Bekir, Ahmet, and Doka, Serge Y

Subjects

*TRIGONOMETRIC functions, *HYPERBOLIC functions, *SINE-Gordon equation, *KLEIN-Gordon equation, *SCHRODINGER equation

Abstract

Based on two algorithm integrations, such as the exp (- Φ (ξ)) -expansion method and the hyperbolic function method, we build dark, bright and trigonometric function solution to the Klein–Gordon equations with M-fractional derivative of order α . By adopting the travelling-wave transformation, the constraint condition between the model coefficients and the travelling-wave frequency coefficient for the existence of soliton solutions is also obtained. Moreover, miscellaneous soliton solutions obtained is depicted in 3D and 2D. [ABSTRACT FROM AUTHOR]

Published

2022

4. Optical singular and dark solitons to the nonlinear Schrödinger equation in magneto-optic waveguides with anti-cubic nonlinearity.

Author

Mathanaranjan, Thilagarajah, Rezazadeh, Hadi, Şenol, Mehmet, and Akinyemi, Lanre

Subjects

*NONLINEAR Schrodinger equation, *WAVEGUIDES, *SOLITONS

Abstract

The present paper aims to investigate the coupled nonlinear Schrödinger equation in magneto-optic waveguides having anti-cubic (AC) law nonlinearity. The solitons secured to magneto-optic waveguides with AC law nonlinearity are extremely useful to fiber-optic transmission technology. Three constructive techniques, namely, the (G ′ / G) -expansion method, the modified simple equation method, and the extended tanh method are utilized to find the exact soliton solutions of this model. Consequently, dark, singular, combined dark-singular and periodic soliton solutions are obtained. The behaviours of soliton solutions are presented by 3D and 2D plots. [ABSTRACT FROM AUTHOR]

Published

2021

5. Propagation of Optical Solitons to the Fractional Resonant Davey-Stewartson Equations.

Author

Younas, Usman, Muhammad, Jan, Rezazadeh, Hadi, Hosseinzadeh, Mohammad Ali, and Salahshour, Soheil

Abstract

In this work, we investigate the exact solutions of (2+1)-dimensional coupled resonant Davey-Stewartson equation (DSE) with the properties of truncated M-fractional derivative. It is a significant equation system that models wave packets in different fields. DSE and its coupling with other system have interesting properties and many applications in the fields of nonlinear sciences. The concept of resonant is quite important in optics, plasma physics, magneto-acoustic waves and fluid dynamics. In order to use newly designed integration method known as modified Sardar subequation method (MSSEM), we first convert the (2+1)-dimensional fractional coupled resonant DSE into a set of nonlinear ordinary diferential equations. To acquire the exact solutions, the ordinary differential equation is solved by applying the homogeneous balance method between the highest power terms and the highest derivative of the ordinary differential equation. The optical soliton solutions of the resultant system are investigated using different cases and physical constant values. The aforementioned technique is applied to the considered model, yielding several kinds of soliton solutions, such as mixed, dark, singular, bright-dark, bright, complex and combined solitons. In addition, exponential, periodic, and hyperbolic solutions are also obtained. Also, we plot the 2D, and 3D graphs with the associated parameter values to visualize the solutions. The findings of this work will help to identify and clarify some novel soliton solutions and it is expected that the solutions obtained will play a vital role in the fields of physics and engineering. [ABSTRACT FROM AUTHOR]

Published

2024

6. Bright and Singular Optical Solitons in Nonlinear Negative-Index Materials with Quadratic–Cubic Nonlinearity.

Author

Rezazadeh, Hadi, Abazari, Reza, Justin, Mibaile, Bekir, Ahmet, and Korkmaz, Alper

Subjects

*NONLINEAR Schrodinger equation, *OPTICAL solitons, *ORDINARY differential equations, *DIFFERENTIAL equations, *SCHRODINGER equation, *MATHEMATICAL models

Abstract

Generally, metamaterials are any material with a special properties that are not in nature. Among them, the optical metamaterial is a type of electromagnetic metamaterial, that interacts with light or visible wavelengths. The mathematical modeling of this interaction is usually introduce by perturbed Schrödinger equation. The aim of this paper is to study the perturbed Schrödinger equation model of optical metamaterials for obtaining their solitary wave solutions. To obtain the solitary wave solutions of governing equation, we firstly reduced the equation to an ordinary differential equation (ODE), then multiplication of this equation with the derivative of the unknown function leads to a well known ODE. Secondly, integrating this resultant equation for some particular choices of constant coefficients gives many solutions in different classes. Many of these solutions are generalized forms of the solutions reported in the literature. Elliptic and triangular solutions are constructed in various forms besides bright and singular type soliton solutions. [ABSTRACT FROM AUTHOR]

Published

2021

7. Stability and solitonic wave solutions of (2+1)-dimensional chiral nonlinear Schrödinger equation.

Author

Zhou, Xuejun, Tariq, Kalim U., Rezazadeh, Hadi, Raza Kazmi, S. M., and Hosseinzadeh, Mohammad Ali

Abstract

In this work, the (2+1)-dimensional chiral nonlinear Schrödinger equation that describes about quantum field concept in physics and other physical sciences are studied and solved by utilizing the two modern techniques including the polynomial expansion method and the Sardar sub-equation method. We attained different types of soliton solutions that had been applications in different fields of mathematical sciences. The behaviours of attained solutions are periodic, singular and v-shaped soliton solutions. Furthermore, we have investigated the stability of the obtained results. Also, the 3D, 2D, and contour graphics are displayed for the better understanding of the dynamical behaviour of various waves structures extensively. The techniques applied in this article are not used in this model in literature so we say that our findings are new that summarize the novelty of work. The utilize model has applications in physics related phenomenon also obtained results highly valuable in various branches of sciences specially in the transmission of fiber optical. [ABSTRACT FROM AUTHOR]

Published

2024

8. Novel optical solitons for the Ablowitz–Ladik lattice equation with conformable derivatives in the optical fibers.

Author

Asghari, Yasin, Eslami, Mostafa, and Rezazadeh, Hadi

Subjects

*OPTICAL solitons, *OPTICAL fibers, *PHENOMENOLOGICAL theory (Physics), *EQUATIONS, *SOLITONS, *OPTICAL lattices

Abstract

The principal purpose of this research is to utilize the exp-function approach for achieving exact solutions of nonlinear optical fibers, including fractional order in the sense of conformable derivatives. Owing to the algorithm of symbolic computational, Some soliton solutions are obtained, including solitary soliton, singular kink-type soliton, and periodic solitons. These results are generated and developed by using the exp-function. To the greatest of our knowledge, the soliton solutions given in this study could be highly beneficial in comprehending physical phenomena. [ABSTRACT FROM AUTHOR]

Published

2023

9. Extraction of new optical solitons of conformable time fractional generalized RKL equation via quadrupled power-law of self-phase modulation.

Author

Ghayad, Mohamed S., Ahmed, Hamdy M., Badra, Niveen M., Rezazadeh, Hadi, Hosseinzadeh, Mohammad Ali, and Rabie, Wafaa B.

Subjects

*OPTICAL solitons, *SELF-phase modulation, *OPTICAL fibers, *MATHEMATICAL models, *SOLITONS

Abstract

In the current work, we investigate the optical solitons and exact solutions for the conformable time fractional generalized Radhakrishnan–Kundu–Lakshmanan (GRKL)equation with the polynomial law of nonlinearity which represent the mathematical model of pulse propagation in a nonlinear medium in optical fibers. The modified extended direct algebraic method is presented to get the exact solutions for this model. Many varieties of traveling wave solutions are established like, solitons (bright, dark, singular, combo singular-dark), combo periodic solutions, periodic solutions, Jacobi elliptic solutions, exponential solutions and Weierstrass elliptic solutions. The impact of the fractional derivative is illustrated graphically using examples of some of the retrieved solutions with various values of fractional order. [ABSTRACT FROM AUTHOR]

Published

2024

10. Optical solitons in metamaterials with third and fourth order dispersions.

Author

Mathanaranjan, Thilagarajah, Kumar, Dipankar, Rezazadeh, Hadi, and Akinyemi, Lanre

Subjects

*OPTICAL solitons, *METAMATERIALS, *LIGHT propagation, *DISPERSION (Chemistry), *NONLINEAR theories, *SOLITONS, *NONLINEAR optical spectroscopy

Abstract

The propagation of optical solitons via nonlinear metamaterials with cubic-quintic nonlinearity, detuning intermodal dispersion, self steepening effect, and nonlinear third and fourth-order dispersions is the focus of this study. To find the optical solitons and other solutions, the extended sinh-Gordon equation expansion method is applied to the aforementioned model. As a result, dark, bright, combined dark–bright, singular, combined singular soliton, and singular periodic wave solutions are obtained. To our best knowledge, the application of the method to the model, and the acquired combined soliton solutions are novel. To understand the nonlinear propagation theory of solitons in metamaterials, the reported outcomes can be enriched by the soliton theory. [ABSTRACT FROM AUTHOR]

Published

2022

11. Optical solitons of (3 + 1) dimensional and coupled nonlinear Schrodinger equations.

Author

Inan, Ibrahim Enam, Inc, Mustafa, Rezazadeh, Hadi, and Akinyemi, Lanre

Subjects

*NONLINEAR equations, *OPTICAL solitons, *SCHRODINGER equation, *NONLINEAR differential equations, *PARTIAL differential equations, *SOLITONS, *NONLINEAR Schrodinger equation

Abstract

In this paper, we implemented extended e x p - φ ξ -expansion method for some exact solutions of (3 + 1)-dimensional nonlinear Schrödinger equation (NLSE) and coupled nonlinear Schrodinger's equation. The solutions we obtained are hyperbolic, trigonometric and exponential solutions. We observed that these solutions provided the equations through Mathematica 11.2. Apart from that, we have shown the graphics performance of some of the solutions found. This method has been used recently to obtain exact traveling wave solutions of nonlinear partial differential equations. The results achieved in this study have been confirmed with computational software Maple or Mathematica by placing them back into NLFPDEs and found them correct. We posited that the approach is updated to be more pragmatic, efficacious, and credible and that we pursue more generalized precise solutions for traveling waves, like the solitary wave solutions. [ABSTRACT FROM AUTHOR]

Published

2022

12. Soliton solutions of (2+1) complex modified Korteweg–de Vries system using improved Sardar method.

Author

Muhammad, Umar Ali, Sabi'u, Jamilu, Salahshour, Soheil, and Rezazadeh, Hadi

Subjects

*SOLITONS, *TRAVELING waves (Physics), *WATER depth, *NONLINEAR evolution equations, *ANALYTICAL solutions

Abstract

This paper investigates (2+1)-dimensional complex modified Korteweg–de Vries (cmKdV) system equations using the improved Sadar subequation method. It uncovers analytical solutions, including dark solitons, bright solitons, and periodic waves. The dynamic behavior of these solutions is illustrated through 2D and 3D plots by adjusting parameters. The results highlight the effectiveness and simplicity of the proposed methods, providing a versatile approach to obtaining various traveling wave solutions. These findings are expected to advance the shallow water theory of ideal fluids. [ABSTRACT FROM AUTHOR]

Published

2024

13. Solitary wave dynamics of the extended (2+1)-dimensional Calogero–Bogoyavlenskii–Schiff equation.

Author

Sadaf, Maasoomah, Arshed, Saima, Akram, Ghazala, Raza, Muhammad Zubair, Rezazadeh, Hadi, and Hosseinzadeh, Mohammad Ali

Subjects

*INTERNAL waves, *MATHEMATICAL physics, *OCEAN waves, *PLASMA waves, *BOUSSINESQ equations, *EQUATIONS

Abstract

The extended (2 + 1) -dimensional Calogero–Bogoyavlenskii–Schiff equation is investigated in this study. The extended (2 + 1) -dimensional Calogero–Bogoyavlenskii–Schiff equation is an extension of Calogero–Bogoyavlenskii–Schiff equation that describes the movement of Riemann waves along y-axis while long waves moves along the x-axis. The dynamics of Riemann waves is one of the most significant applications including tsunami in rivers, internal waves in oceans and magento-sound waves in plasmas. Finding new precise solutions with the assistance of a relatively new extended G ′ G 2 -expansion approach and exp (- φ (ζ)) -expansion technique is the primary objective of this effort. The suggested techniques are important tools in the fields of mathematical physics. Successful extraction of hyperbolic, rational, and trigonometric function solutions are achieved by using the proposed analytical methods. The extended (2 + 1) -dimensional Calogero–Bogoyavlenskii–Schiff equation is studied for the first time using extended G ′ G 2 -expansion approach and exp (- φ (ζ)) -expansion technique in this work and novel solutions are observed. 3D plots, contour plots and 2D plots are used to depict the dynamics of the extracted solutions. [ABSTRACT FROM AUTHOR]

Published

2024

14. New chirp-free and chirped form optical solitons to the non-linear Schrödinger equation.

Author

Zafar, Asim, Raheel, M., Rezazadeh, Hadi, Inc, Mustafa, and Akinlar, Mehmet Ali

Subjects

*NONLINEAR Schrodinger equation, *OPTICAL solitons, *SOLITONS, *SCHRODINGER equation

Abstract

We are concerned with new form optical solitons to the non-linear Schrödinger equation (NLSE) by generalized anti-cubic non-linearity. Some new optical solitons containing dark, singular and periodic solitons in chirp-free and chirped form are constructed via modified extended tanh expansion method. These results are very useful in the field of optics. The obtained results are verified and also explain by drawing different graphs. Parametric conditions for the chirp-free and chirped shape soliton solutions are also mentioned. Computational results indicate the efficiency of the aforesaid analytical expansion scheme. [ABSTRACT FROM AUTHOR]

Published

2021

15. Pure cubic optical solitons with improved tan(φ/2)-expansion method.

Author

Özkan, Yeşim Sağlam, Eslami, Mostafa, and Rezazadeh, Hadi

Subjects

*OPTICAL solitons, *SCHRODINGER equation, *HYPERBOLIC functions, *SOLITONS, *NONLINEAR equations, *CUBIC equations, *TRIGONOMETRIC functions

Abstract

In this paper, we considered the nonlinear Schrodinger equation modeling cubic optical solitons in a polarization-preserving fiber with Kerr law. Using the improved t a n (φ / 2) -expansion method, a powerful and effective method, we constructed exact solutions including the hyperbolic function solution, the trigonometric function solution, the exponential solution and the rational solution with free parameters. The geometrical shapes for some of the obtained results are depicted for various choices of the free parameters that appear in the results. The obtained solutions are entirely new and can be considered as generalization of the existing results in the ordinary derivative case. [ABSTRACT FROM AUTHOR]

Published

2021

16. Optical soliton with Kudryashov's equation via sine-Gordon expansion and Kudryashov methods.

Author

Ali, Khalid K., Zabihi, Ali, Rezazadeh, Hadi, Ansari, Reza, and Inc, Mustafa

Subjects

*SINE-Gordon equation, *OPTICAL solitons, *SOLITONS

Abstract

This article is concerned with analyzing exact optical soliton solutions to Kudryashov's model. To this end, the sine-Gordon expansion and Kudryashov methods are exerted and a bunch of new optical soliton solutions is acquired. The implementation and algebraic methods are discussed in detail. Finally, singular and bright-dark soliton solutions emerge from the scheme and the existing criteria for such solutions are elucidated. [ABSTRACT FROM AUTHOR]

Published

2021

17. Exact optical solitons to the perturbed nonlinear Schrödinger equation with dual-power law of nonlinearity.

Author

Savaissou, Nestor, Gambo, B., Rezazadeh, Hadi, Bekir, Ahmet, and Doka, Serge Y.

Subjects

*NONLINEAR Schrodinger equation, *SCHRODINGER equation, *OPTICAL solitons, *NONLINEAR wave equations, *SOLITONS, *NONLINEAR optics

Abstract

In this paper, the perturbed nonlinear Schrödinger equation with dual-power law of nonlinearity is studied by adopting four mathematical methods namely the Modified Kudryashov method, the extended Tanh–Coth method, the modified simple equation method and soliton ansatz method. As a results, a set of various types of solitons that contains dark, singular, dark–singular, bright optical solitons and other form of optical soliton solutions are obtained. Firstly, we solve the perturbed nonlinear Schrödinger equation by considering the dual power law parameter using the first three integration methods and secondly we set this parameter equal to one in order, to solve the problem with the fourth method. The used methods in this paper present various applications in fields of nonlinear wave equations. Comparing our new results with well-known in literature are also given. Moreover, the graphical representations of the modulus of some optical soliton solutions and their 2-D profile are also depicted. [ABSTRACT FROM AUTHOR]

Published

2020

18. Some exact solitons to the (2 + 1)-dimensional Broer–Kaup–Kupershmidt system with two different methods.

Author

Malik, Sandeep, Kumar, Sachin, Akbulut, Arzu, and Rezazadeh, Hadi

Subjects

*GRAVITY waves, *ORDINARY differential equations, *SOLITONS, *ENGINEERING models, *WATER depth, *MODE-locked lasers

Abstract

The exact solutions of the (2 + 1) dimensional Broer–Kaup–Kupershmidt (BKK) system which has been recommended to model the nonlinear and dispersive long gravity waves traveling along with the two horizontal directions in the shallow water of uniform depth were obtained. Firstly, the given system was reduced to an ordinary differential equation (ODE) with the help of the wave transformations. Then, the reduced ODE was solved with the help of two methods which are called the modified (G ′ / G) -expansion method and new extended generalized Kudryashov method. We checked the results with the Maple software and plotted 3D, contour and 2D plots of some obtained solutions. As a result, we obtained exact solutions that are different from each other and have not been obtained before. Results can enhance the nonlinear dynamical behavior of a given system and demonstrate the effectiveness of the employed methodology. Results will be beneficial to a large number of engineering model specialists and useful for understanding the wave motions. [ABSTRACT FROM AUTHOR]

Published

2023

19. Peculiar optical solitons and modulated waves patterns in anti-cubic nonlinear media with cubic–quintic nonlinearity.

Author

Houwe, Alphonse, Abbagari, Souleymanou, Akinyemi, Lanre, Rezazadeh, Hadi, and Doka, Serge Y.

Subjects

*OPTICAL solitons, *SOLITONS, *QUINTIC equations, *NONLINEAR Schrodinger equation, *ROGUE waves, *WAVENUMBER, *NONLINEAR waves, *TRIGONOMETRIC functions

Abstract

In this work, we investigate diverse analytical solutions and modulation instability of the nonlinear Schrödinger equation with an anti-cubic nonlinear term. We use the traveling wave transformation and the New Generalized Extended Direct Algebraic Method to perform a variety of exact traveling wave soliton-like solutions. The obtained solutions are among other trigonometric function solutions, complex soliton solutions, and rational solutions. A particular behavior has been depicted in self-focusing and defocusing nonlinearity where dark soliton changes to super rogue waves and breather soliton is obtained. We then use the linearizing scheme to get the growth rate of modulation instability. For a specific value of the excitation wave number and a specific time of simulation, diverse waveforms of the modulated waves are obtained. We have demonstrated that the combined dispersion and nonlinear terms, as well as the anti-cubic nonlinear term, can develop modulation instability. To confirm the predictions based on the analytical results, we use the direct numerical simulation, from which we have displayed a modulation wave of the growth rate modulation instability. It results equally that the anti-cubic nonlinearity is an important object to control the propagation of the solitonic waves in the nonlinear systems. [ABSTRACT FROM AUTHOR]

Published

2023

20. New extensions of (2+1)-dimensional BLMP models with soliton solutions.

Author

Darvishi, M. T., Najafi, Mohammad, Arbabi, Somayeh Baloch, Rezazadeh, Hadi, Bekir, Ahmet, and Cevikel, Adem

Subjects

*PARTIAL differential equations, *NONLINEAR differential equations, *SOLITONS

Abstract

Searching for soliton solutions of nonlinear partial differential equations is one of the most interesting and important areas of science in the field of nonlinear phenomena. Soliton is a localized wave with exponential wings or is a localized wave with an infinite support. In this work, we study two extensions of (2+1)-dimensional Boiti-Leon-Manna-Pempinelli equation. Based on the simplified Hirota's method and the Cole-Hopf transformation method, new multiple front wave solutions are obtained for both versions. [ABSTRACT FROM AUTHOR]

Published

2023

21. Explicit exact solutions and conservation laws in a medium with competing weakly nonlocal nonlinearity and parabolic law nonlinearity.

Author

Souleymanou, Abbagari, Houwe, Alphonse, Kara, A. H., Rezazadeh, Hadi, Akinyemi, Lanre, Mukam, Serge P. T., Doka, Serge Y., and Bouetou, Thomas B.

Subjects

*CONSERVATION laws (Physics), *HYPERBOLIC functions, *SEPARATION of variables, *TRIGONOMETRIC functions, *LIGHT propagation, *CONSERVATION laws (Mathematics), *NONLINEAR wave equations

Abstract

In this paper, we studied a nonlinear wave equation that models the propagation of optical solutions in a weakly nonlocal and parabolic competing nonlinear medium. The exact traveling wave type solutions formulated in hyperbolic functions, rational and trigonometric functions multiplied by some exponential functions to the governing equation are determined explicitly by the extended form of the Kudryashov method. We have examined the behavior of the modulation instability (MI) growth rate. To substantiate the stability of the obtained dark and bell-shaped solitons, we use the split-step Fourier method. In addition, the conservation laws describing significant physical concepts of this equation are examined. Compared to the obtained results with Younis et al. (J Nonlinear Opt Phys Mater 24(04):1550049, 2015), Zhou et al. (Optik 124(22):5683–5686, 2013; Proc Rom Acad Ser A 16(2):152–159, 2015) and Akinyemi et al. (Optik 230:166281, 2021), we have shown the propagation of the solitonic waves which sometime tilt from right to left with stable shape. [ABSTRACT FROM AUTHOR]

Published

2023

22. Optical solitonic structures with singular and non-singular kernel for nonlinear fractional model in quantum mechanics.

Author

Asjad, Muhammad Imran, Inc, Mustafa, Faridi, Waqas Ali, Bakar, Muhammad Abu, Muhammad, Taseer, and Rezazadeh, Hadi

Subjects

*QUANTUM mechanics, *NONLINEAR Schrodinger equation, *NONLINEAR differential equations, *PARTIAL differential equations, *BOSE-Einstein condensation, *GROSS-Pitaevskii equations, *SCHRODINGER equation, *KERNEL functions

Abstract

The present study examines the nonlinear time-fractional model in the sense of a solitonic structure. A non-linear Schrödinger equation has applications in light scattering, indirect optical pulses as well as planer waves and to Bose-Einstein condensates enclosed in an anisotropic-shaped cigar, in a mean-field state, etc. A new extended direct algebraic method is utilized to get the soliton solutions with modified M-truncated and Atangana–Baleanu fractional operators which have Mittag-Leffler kernel. The obtained solutions contain new families of functions such as trigonometric, hyperbolic, rational, and exponential functions. The graphical 2D, 3D, contour, and also 3D spherical presentation pictorial the analysis with the feasible parametric values. On the evidence of the acquired solutions, it can be presumed that this technique is more effective and generalized to obtain solutions of many other non-linear partial differential equations that appear in different scientific disciplines. [ABSTRACT FROM AUTHOR]

Published

2023

23. Correction to: Optical solitons of (3 + 1) dimensional and coupled nonlinear Schrodinger equations.

Author

Inan, Ibrahim Enam, Inc, Mustafa, Rezazadeh, Hadi, and Akinyemi, Lanre

Subjects

*OPTICAL solitons, *NONLINEAR equations, *SOLITONS, *SCHRODINGER equation

Abstract

Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Correction to: Optical solitons of (3 + 1) dimensional and coupled nonlinear Schrodinger equations Correction to: https://doi.org/10.1007/s11082-022-03613-yhttps://doi.org/10.1007/s11082-022-0... The article with title "Optical solitons of (3 + 1) dimensional and coupled nonlinear Schrodinger equations" has been published twice with https://doi.org/10.1007/s11082-022-03613-y and https://doi.org/10.1007/s11082-022-03599-7. [Extracted from the article]

Published

2022

24. On soliton solutions for perturbed Fokas–Lenells equation.

Author

Gomez S, Cesar A.., Roshid, Harun-Or, Inc, Mustafa, Akinyemi, Lanre, and Rezazadeh, Hadi

Subjects

*NONLINEAR equations, *EQUATIONS, *SOLITONS

Abstract

In this work, a variety of optical soliton solutions are derived for a nonlinear generalized equation with variable coefficients. At first, a computational approach is used to obtain solutions for the proposed model for a particular case. After, a generalized approach is considered to obtain other type of solutions given in a more general form. From the model considered here, the classical perturbed Fokas-Lenells equation is obtained and new optical soliton solutions for this last case are presented. Finally, some conclusions are given. [ABSTRACT FROM AUTHOR]

Published

2022

25. Dynamical behaviour of Chiral nonlinear Schrödinger equation.

Author

Akinyemi, Lanre, Inc, Mustafa, Khater, Mostafa M. A., and Rezazadeh, Hadi

Subjects

*SCHRODINGER equation, *NONLINEAR Schrodinger equation, *QUANTUM field theory, *TRAVELING waves (Physics), *APPLIED sciences, *SOLITONS, *WAVE equation

Abstract

In this work, we study the exact traveling wave solutions of (2 + 1) -dimensional Chiral nonlinear Schrödinger equation with the aid of generalized auxiliary equation method. The aforementioned model is used as a governing equation to discuss the wave in quantum field theory. The suggested technique is direct, effective, powerful, and offers constraint conditions to ensure the existence of solutions. The solutions obtained are bright solitons, dark solitons, singular solitons, mixed solitons, periodic waves, exponential, rational, and complex solutions that are relevant in various applications of applied science. Finally, some solutions are depicted in two and three dimensional to better understand the behavior of the considered model. [ABSTRACT FROM AUTHOR]

Published

2022