Tao Xu scite author profile

In nonlinear optical fibers, the vector solitons can be governed by the systems of coupled nonlinear Schrödinger from polarized optical waves in an isotropic medium. Based on the Ablowitz–Kaup–Newell–Segur technology, the Darboux transformation method is successfully applied to two coupled nonlinear Schrödinger systems. With the help of symbolic computation, the bright vector one- and two-soliton solutions including one-peak and two-peak solitons are further constructed via the iterative algorithm of Darboux transformation. Through the figures for several sample solutions, the stable propagation and elastic collisions for these kinds of bright vector solitons are discussed and the possible applications are pointed out in optical communications and relevant optical experiments.In addition, the conserved quantities of such two systems, i.e., the energy, momentum and Hamiltonian, are also presented.

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Dynamics of Alfvén solitons in inhomogeneous plasmas

Tian

et al. 2008

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To provide an analytical scheme for the dynamical behavior of nonlinear Alfvén waves in inhomogeneous plasmas, this paper investigates a generalized variable-coefficient derivative nonlinear Schrödinger equation. In the sense of admitting the Lax pair and infinitely many conservation laws, the integrability of this equation is established under certain coefficient constraint which suggests which inhomogeneities support stable Alfvén solitons. The Hirota method is adopted to construct the one- and multi-Alfvén-soliton solutions. The inhomogeneous soliton features are also discussed through analyzing some important physical quantities. A sample model is treated with our results, and graphical illustration presents two energy-radiating Alfvén soliton structures.

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Mixed soliton solutions of the defocusing nonlocal nonlinear Schrödinger equation

Lan

et al. 2019

Physica D: Nonlinear Phenomena

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By using the Darboux transformation, we obtain two new types of exponential-and-rational mixed soliton solutions for the defocusing nonlocal nonlinear Schrödinger equation. We reveal that the first type of solution can display a large variety of interactions among two exponential solitons and two rational solitons, in which the standard elastic interaction properties are preserved and each soliton could be either the dark or antidark type. By developing the asymptotic analysis method, we also find that the second type of solution can exhibit the elastic interactions among four mixed asymptotic solitons. But in sharp contrast to the common solitons, the mixed asymptotic solitons have the t-dependent velocities and their phase shifts before and after interaction also grow with |t| in the logarithmical manner. In addition, we discuss the degenerate cases for such two types of mixed soliton solutions when the four-soliton interaction reduces to a three-soliton or two-soliton interaction. √ 15 7 i. (b) MD-MAD-V-V interaction with ρ = 1, b = 1 4 , φ = 0, s 1 = 0, s 2 = 3 25 i and γ 1 = 1 − √ 15 7 i. (c) V-V-MAD-MD interaction with ρ = 1, b = 1 4 , φ = 0, s 1 = 0, s 2 = 0 and γ 1 = 1. (d) V-V-MD-MAD interaction with ρ = 1, b = 1 4, φ = 0, s 1 = 0, s 2 = 3 25 i and γ 1 = −1. Here, "V" represents the vanishment of an asymptotic soliton as |t| → ∞.

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Soliton and breather solutions of the Sasa–Satsuma equation via the Darboux transformation

Wang

et al. 2014

Phys. Scr.

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In this paper, we construct the general Darboux transformation on the Sasa-Satsuma equation and represent the iterated solutions in terms of the three-component Wronskian. From the onceiterated solution, we derive the breather as well as the single-and double-hump solitons. We also analyze three types of collisions: soliton-soliton, breather-breather and soliton-breather collisions. The surprising result is that the soliton-breather collision may exhibit the shapechanging phenomena, that is, one breather (or soliton) may change into a soliton (or breather) when interacting with another breather. Such novel collision phenomena may be applied in alloptical information processing, optical switching and routing of optical signals.

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Soliton-like solutions of a generalized variable-coefficient higher order nonlinear Schrödinger equation from inhomogeneous optical fibers with symbolic computation

Li¹,

Zhang²,

Xu³

et al. 2007

J. Phys. A: Math. Theor.

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For the long-distance communication and manufacturing problems in optical fibers, the propagation of subpicosecond or femtosecond optical pulses can be governed by the variable-coefficient nonlinear Schrödinger equation with higher order effects, such as the third-order dispersion, self-steepening and self-frequency shift. In this paper, we firstly determine the general conditions for this equation to be integrable by employing the Painlevé analysis. Based on the obtained 3 × 3 Lax pair, we construct the Darboux transformation for such a model under the corresponding constraints, and then derive the nth-iterated potential transformation formula by the iterative process of Darboux transformation. Through the one- and two-soliton-like solutions, we graphically discuss the features of femtosecond solitons in inhomogeneous optical fibers.

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Tao Xu

Optical soliton solutions for two coupled nonlinear Schrödinger systems via Darboux transformation

Dynamics of Alfvén solitons in inhomogeneous plasmas

Mixed soliton solutions of the defocusing nonlocal nonlinear Schrödinger equation

Soliton and breather solutions of the Sasa–Satsuma equation via the Darboux transformation

Soliton-like solutions of a generalized variable-coefficient higher order nonlinear Schrödinger equation from inhomogeneous optical fibers with symbolic computation

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