Sofi Farazande scite author profile

In this paper, we extend the Petviashvili method (PM) to the fractional nonlinear Schrödinger equation (fNLSE) for the construction and analysis of its soliton solutions. We also investigate the temporal dynamics and stabilities of the soliton solutions of the fNLSE by implementing a spectral method, in which the fractional-order spectral derivatives are computed using FFT (Fast Fourier Transform) routines, and the time integration is performed by a 4th order Runge–Kutta time-stepping algorithm. We discuss the effects of the order of the fractional derivative, α, on the properties, shapes, and temporal dynamics of the soliton solutions of the fNLSE. We also examine the interaction of those soliton solutions with zero, photorefractive and q-deformed Rosen–Morse potentials. We show that for all of these potentials, the soliton solutions of the fNLSE exhibit a splitting and spreading behavior, yet their dynamics can be altered by the different forms of the potentials and noise considered.

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The Solution of the Long-Wave Equation for Various Nonlinear Depth and Breadth Profiles in the Power-Law Form

Bayındır¹,

Farazande²

2021

Preprint

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In this paper, we derive the exact solutions of the long-wave equation over nonlinear depth and breadth profiles having power-law forms given by h(x) = c1x a and b(x) = c2x c , where the parameters c1, c2, a, c are some constants. We show that for these types of power-law forms of depth and breadth profiles, the long-wave equation admits solutions in terms of Bessel functions and Cauchy-Euler series. We also derive the seiching periods and resonance conditions for these forms of depth and breadth variations. Our results can be used to investigate the long-wave dynamics and their envelope characteristics over equilibrium beach profiles, the effects of nonlinear harbor entrances and angled nonlinear seawall breadth variations in the power-law forms on these dynamics, and the effects of reconstruction, geomorphological changes, sedimentation, and dredging to harbor resonance, to the shift in resonance periods and to the seiching characteristics in lakes and barrages.

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Petviashvili Method for the Fractional Schrödinger Equation

Bayındır¹,

Farazande²

2021

Preprint

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In this paper, we extend the Petviashvili method (PM) to the fractional nonlinear Schrödinger equation (fNLSE) for the construction and analysis of its soliton solutions. We also investigate the temporal dynamics and stabilities of the soliton solutions of the fNLSE by implementing a spectral method, in which the fractional-order spectral derivatives are computed using FFT routines, and the time integration is performed by a 4 th order Runge-Kutta time-stepping algorithm. We discuss the effects of the order of the fractional derivative, α, on the properties, shapes, and temporal dynamics of the solitons solutions of the fNLSE. We also examine the interaction of those soliton solutions with zero, photorefractive and q-deformed Rosen-Morse potentials. We show that for all of these potentials the soliton solutions of the fNLSE exhibit a splitting and spreading behavior, yet their dynamics can be altered by the different forms of the potentials considered. The splitting and spreading dynamics of the solitons of the fNLSE are not affected by noise. Our results also indicate that the Savitzky-Golay filter can be used for the denoising of the solitons of the fNLSE.

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The solution of the long-wave equation for various nonlinear depth and breadth profiles in the power-law form

Bayındır

Farazande

2021

Dynamics of Atmospheres and Oceans

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Sofi Farazande

Mathematical modeling of microplastic abundance, distribution, and transport in water environments: A review

Petviashvili Method for the Fractional Schrödinger Equation

The Solution of the Long-Wave Equation for Various Nonlinear Depth and Breadth Profiles in the Power-Law Form

Petviashvili Method for the Fractional Schrödinger Equation

The solution of the long-wave equation for various nonlinear depth and breadth profiles in the power-law form

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