Recursion operators admitted by non-Abelian Burgers equations: Some remarks

AbstractWith the help of symbolic computation, two types of complete scalar classification for dark Burgers’ equations are derived by requiring the existence of higher order differential polynomial symmetries. There are some free parameters for every class of dark Burgers’ systems; so some special equations including symmetry equation and dual symmetry equation are obtained by selecting the free parameter. Furthermore, two kinds of recursion operators for these dark Burgers’ equations are constructed by two direct assumption methods.

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Duality of positive and negative integrable hierarchies via relativistically invariant fields

Journal of High Energy Physics ◽

10.1007/jhep07(2021)058 ◽

2021 ◽

Vol 2021 (7) ◽

Author(s):

S. Y. Lou ◽

X. B. Hu ◽

Q. P. Liu

Keyword(s):

Integrable Hierarchies ◽

Gordon Equation ◽

Formal Series ◽

Two Dimensional ◽

Relativistic Invariance ◽

Sine Gordon Equation ◽

Recursion Operators ◽

Symmetry Approach ◽

Duality Relations ◽

Duality Problem

Abstract It is shown that the relativistic invariance plays a key role in the study of integrable systems. Using the relativistically invariant sine-Gordon equation, the Tzitzeica equation, the Toda fields and the second heavenly equation as dual relations, some continuous and discrete integrable positive hierarchies such as the potential modified Korteweg-de Vries hierarchy, the potential Fordy-Gibbons hierarchies, the potential dispersionless Kadomtsev-Petviashvili-like (dKPL) hierarchy, the differential-difference dKPL hierarchy and the second heavenly hierarchies are converted to the integrable negative hierarchies including the sG hierarchy and the Tzitzeica hierarchy, the two-dimensional dispersionless Toda hierarchy, the two-dimensional Toda hierarchies and negative heavenly hierarchy. In (1+1)-dimensional cases the positive/negative hierarchy dualities are guaranteed by the dualities between the recursion operators and their inverses. In (2+1)-dimensional cases, the positive/negative hierarchy dualities are explicitly shown by using the formal series symmetry approach, the mastersymmetry method and the relativistic invariance of the duality relations. For the 4-dimensional heavenly system, the duality problem is studied firstly by formal series symmetry approach. Two elegant commuting recursion operators of the heavenly equation appear naturally from the formal series symmetry approach so that the duality problem can also be studied by means of the recursion operators.

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Existence and smoothness of a class of Burgers equations

Partial Differential Equations in Applied Mathematics ◽

10.1016/j.padiff.2021.100027 ◽

2021 ◽

Vol 3 ◽

pp. 100027

Author(s):

Svetlin G. Georgiev ◽

Gal Davidi

Keyword(s):

Burgers Equations

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A new technique for numerical solution of 1D and 2D non-linear coupled Burgers’ equations by using cubic Uniform Algebraic Trigonometric (UAT) tension B-spline based differential quadrature method

Ain Shams Engineering Journal ◽

10.1016/j.asej.2020.11.030 ◽

2021 ◽

Author(s):

Mamta Kapoor ◽

Varun Joshi

Keyword(s):

Numerical Solution ◽

Differential Quadrature Method ◽

Differential Quadrature ◽

New Technique ◽

Quadrature Method ◽

B Spline ◽

Burgers Equations ◽

Non Linear ◽

A New Technique

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On Monotonic Pattern in Periodic Boundary Solutions of Cylindrical and Spherical Kortweg–De Vries–Burgers Equations

Symmetry ◽

10.3390/sym13020220 ◽

2021 ◽

Vol 13 (2) ◽

pp. 220

Author(s):

Alexey Samokhin

Keyword(s):

Periodic Boundary ◽

Asymptotic Formulas ◽

Burgers Equations ◽

Spherical Waves ◽

Constant Height ◽

De Vries ◽

Spatial Dimensions ◽

Integral Characteristics ◽

Boundary Solutions ◽

Shock Fronts

We studied, for the Kortweg–de Vries–Burgers equations on cylindrical and spherical waves, the development of a regular profile starting from an equilibrium under a periodic perturbation at the boundary. The regular profile at the vicinity of perturbation looks like a periodical chain of shock fronts with decreasing amplitudes. Further on, shock fronts become decaying smooth quasi-periodic oscillations. After the oscillations cease, the wave develops as a monotonic convex wave, terminated by a head shock of a constant height and equal velocity. This velocity depends on integral characteristics of a boundary condition and on spatial dimensions. In this paper the explicit asymptotic formulas for the monotonic part, the head shock and a median of the oscillating part are found.

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A multivariate spectral quasi-linearization method for the solution of (2+1) dimensional Burgers’ equations

International Journal of Nonlinear Sciences and Numerical Simulation ◽

10.1515/ijnsns-2019-0055 ◽

2020 ◽

Vol 21 (7-8) ◽

pp. 683-691

Author(s):

Phumlani G. Dlamini ◽

Vusi M. Magagula

Keyword(s):

Collocation Method ◽

Three Dimensional ◽

Linearization Method ◽

High Accuracy ◽

Time Variable ◽

Spectral Collocation Method ◽

Spectral Collocation ◽

Burgers Equations ◽

Grid Points ◽

Linearization Techniques

AbstractIn this paper, we introduce the multi-variate spectral quasi-linearization method which is an extension of the previously reported bivariate spectral quasi-linearization method. The method is a combination of quasi-linearization techniques and the spectral collocation method to solve three-dimensional partial differential equations. We test its applicability on the (2 + 1) dimensional Burgers’ equations. We apply the spectral collocation method to discretize both space variables as well as the time variable. This results in high accuracy in both space and time. Numerical results are compared with known exact solutions as well as results from other papers to confirm the accuracy and efficiency of the method. The results show that the method produces highly accurate solutions and is very efficient for (2 + 1) dimensional PDEs. The efficiency is due to the fact that only few grid points are required to archive high accuracy. The results are portrayed in tables and graphs.

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