Lax pairs, recursion operators and bi-Hamiltonian representations of (3+1)-dimensional Hirota type equations
| Autor: | Sheftel, M. B., Yazıcı, D. |
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| Rok vydání: | 2018 |
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| Druh dokumentu: | Working Paper |
| DOI: | 10.1016/j.geomphys.2018.11.008 |
| Popis: | We consider (3+1)-dimensional second-order evolutionary PDEs where the unknown $u$ enters only in the form of the 2nd-order partial derivatives. For such equations which possess a Lagrangian, we show that all of them have a symplectic Monge--Amp\`ere form and determine their Lagrangians. We develop a calculus for transforming the symmetry condition to a "skew-factorized" form from which we immediately extract Lax pairs and recursion relations for symmetries, thus showing that all such equations are integrable in the traditional sense. We convert these equations together with their Lagrangians to a two-component form and obtain recursion operators in a $2\times 2$ matrix form. We transform our equations from Lagrangian to Hamiltonian form by using the Dirac's theory of constraints. Composing recursion operators with the Hamiltonian operators we obtain the second Hamiltonian form of our systems, thus showing that they are bi-Hamiltonian systems integrable in the sense of Magri. By this approach, we obtain five new bi-Hamiltonian multi-parameter systems in (3+1) dimensions. Comment: 38 pages, LaTeX2e. Section 6 is modified and errors fixed. Section 9 added. This paper studies 4-dimensional PDEs, generalizing the paper arXiv:1712.01549 on 3-dimensional PDEs, but the method, though being essentially developed, is similar. This causes some text overlap with arXiv:1712.01549 |
| Databáze: | arXiv |
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