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This article is cited in 3 scientific papers (total in 3 papers)
Generalized invariant manifolds for integrable equations and their applications
I. T. Habibullina, A. R. Khakimovaa, A. O. Smirnovb a Institute of Mathematics,
Ufa Federal Research Center, RAS,
Chernyshevsky str., 112,
450008, Ufa, Russia
b Saint-Petersburg State University of Aerospace Instrumentation,
Bol'shaya Morskaya str., 67,
190000, St. Petersburg, Russia
Abstract:
In the article we discuss the notion of the generalized invariant manifold introduced in our previous study. In the literature, the method of the differential constraints is well known as a tool
for constructing particular solutions for the nonlinear partial differential equations. Its essence is in adding to a given nonlinear PDE, another
much simpler, as a rule ordinary, differential equation, consistent with the given one. Then any solution of the ODE is a particular solution of the PDE as well. However the main problem is to find this consistent ODE. Our generalization is that we look for an ordinary differential equation that is consistent not with the nonlinear partial differential equation itself, but with its linearization. Such generalized invariant manifold is effectively sought. Moreover, it allows one to construct such important
attributes of integrability theory as Lax pairs and recursion operators for integrable nonlinear equations. In this paper, we show that they provide a way to construct particular solutions to the equation as well.
Keywords:
invariant manifold, integrable system, recursion operator, Lax pair, algebro-geometric solutions, Dubrovin equations, spectral curves.
Received: 30.03.2021
Citation:
I. T. Habibullin, A. R. Khakimova, A. O. Smirnov, “Generalized invariant manifolds for integrable equations and their applications”, Ufimsk. Mat. Zh., 13:2 (2021), 141–157; Ufa Math. J., 13:2 (2021), 135–151
Linking options:
https://www.mathnet.ru/eng/ufa561https://doi.org/10.13108/2021-13-2-135 https://www.mathnet.ru/eng/ufa/v13/i2/p141
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Abstract page: | 151 | Russian version PDF: | 82 | English version PDF: | 14 | References: | 17 |
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