Solutions of the Carleman system via the Painleve expansion
Автор: Dukhnovskii Sergey A.
Журнал: Владикавказский математический журнал @vmj-ru
Статья в выпуске: 4 т.22, 2020 года.
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The one-dimensional discrete kinetic system of Carleman equations is considered. This system describes a monatomic rarefied gas consisting of two groups of particles. These groups of particles move along a straight line, in opposite directions at a unit speed. Particles interact within one group, i.e. themselves, changing direction. Recently, special attention has been paid to the construction of exact solutions of non-integrable partial differential equations using the truncated Painleve series. Applying the Painleve expansion to non-integrable partial differential equations, we obtain the conditions in resonance that must be satisfied. Solution of the system is sought using the truncated Painleve expansion. This system does not satisfy the Painleve test. It leads to the singularity manifold constraints, one of which is the Bateman equation. Knowing the implicit solution of the Bateman equation, one can find new particular solutions of the Carleman system. Also, the solution is constructed using the rescaling ansatz, which allows us to reduce the problem to finding solutions to the corresponding Riccati equation.
System of partial differential equations carleman, painleve expansion, batemans equation
Короткий адрес: https://sciup.org/143172465
IDR: 143172465 | DOI: 10.46698/s8185-4696-7282-p