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Ïîëíàÿ âåðñèÿ
ÆÓÐÍÀËÛ // Chaos Solitons & Fractals // Àðõèâ

Chaos Solitons Fractals, 2014, òîì 59, ñòðàíèöû 59–81 (Mi chsf1)

Ýòà ïóáëèêàöèÿ öèòèðóåòñÿ â 13 ñòàòüÿõ

Integrability of and differential–algebraic structures for spatially 1D hydrodynamical systems of Riemann type

D. Blackmorea, Ya. A. Prikarpatskybc, N. N. Bogolyubov (Jr.)de, A. K. Prikarpatskif

a Department of Mathematical Sciences and Center for Applied Mathematics and Statistics, New Jersey Institute of Technology, Newark, NJ 07102-1982, United States
b Department of Applied Mathematics, Agrarian University of Krakow, Poland
c Institute of Mathematics of NAS, Kyiv, Ukraine
d Abdus Salam International Centre of Theoretical Physics, Trieste, Italy
e V.A. Steklov Mathematical Institute of RAS, Moscow, Russian Federation
f AGH University of Science and Technology, Craców 30059, Poland

Àííîòàöèÿ: A differential–algebraic approach to studying the Lax integrability of a generalized Riemann type hydrodynamic hierarchy is revisited and a new Lax representation is constructed. The related bi-Hamiltonian integrability and compatible Poissonian structures of this hierarchy are also investigated using gradient-holonomic and geometric methods.
The complete integrability of a new generalized Riemann hydrodynamic system is studied via a novel combination of symplectic and differential–algebraic tools. A compatible pair of polynomial Poissonian structures, a Lax representation and a related infinite hierarchy of conservation laws are obtained.
In addition, the differential–algebraic approach is used to prove the complete Lax integrability of the generalized Ostrovsky–Vakhnenko and a new Burgers type system, and special cases are studied using symplectic and gradient-holonomic tools. Compatible pairs of polynomial Poissonian structures, matrix Lax representations and infinite hierarchies of conservation laws are derived.

Ïîñòóïèëà â ðåäàêöèþ: 09.02.2013
Ïðèíÿòà â ïå÷àòü: 21.11.2013

ßçûê ïóáëèêàöèè: àíãëèéñêèé

DOI: 10.1016/j.chaos.2013.11.012



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