On the relationship between nonlinear equations integrable by the method of characteristics and equations associated with commuting vector fields
DOI10.1063/1.3143562zbMath1216.37022arXiv0901.0647OpenAlexW2096439624MaRDI QIDQ3069119
Publication date: 24 January 2011
Published in: Journal of Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/0901.0647
nonlinear differential equationssolitonsKorteweg-de Vries equationpartial differential equationsvectors
Completely integrable infinite-dimensional Hamiltonian and Lagrangian systems, integration methods, integrability tests, integrable hierarchies (KdV, KP, Toda, etc.) (37K10) KdV equations (Korteweg-de Vries equations) (35Q53) Inverse spectral and scattering methods for infinite-dimensional Hamiltonian and Lagrangian systems (37K15)
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Cites Work
- Unnamed Item
- A class of Einstein-Weyl spaces associated to an integrable system of hydrodynamic type
- The general solution of the matrix equation \(w_t + \sum^n_{k=1} w_{x_k}\rho^{(k)}(w) = \rho (w) + [w, T \tilde{\rho}(w)\)]
- Inverse scattering problem for vector fields and the Cauchy problem for the heavenly equation
- Construction of higher-dimensional nonlinear integrable systems and of their solutions
- Integration of nonlinear equations of mathematical physics by the method of inverse scattering. II
- On the integrability of \((2+1)\)-dimensional quasilinear systems
- A hierarchy of integrable partial differential equations in \(2+1\) dimensions associated with one-parameter families of one-dimensional vector fields
- Universal C-integrable nonlinear partial differential equation in N+1 dimensions
- The non-local delta problem and (2+1)-dimensional soliton equations
- C-integrable nonlinear partial differentiation equations. I
- C-integrable nonlinear PDEs. II
- C-Integrable nonlinear partial differential equations in N+1 dimensions
- Integrable nonlinear evolution equations with constraints: I
- C-integrable nonlinear partial differential equations. III
- The τ‐function of the universal whitham hierarchy, matrix models and topological field theories
- On twistor solutions of the dKP equation
- The $\bar{\partial}$-approach to the dispersionless KP hierarchy
- On three-dimensional packets of surface waves
- Integrable hydrodynamic chains
- INTEGRABLE HIERARCHIES AND DISPERSIONLESS LIMIT
- Dressing method based on the homogeneous Fredholm equation: quasilinear PDEs in multidimensions
- The remarkable relations among PDEs integrable by the inverse spectral transform method, by the method of characteristics and by the Hopf–Cole transformation
- Lower-dimensional reductions of GL(M,C) self-dual Yang Mills equation: Solutions with break of wave profiles
- The partial differential equation ut + uux = μxx
- Einstein-Weyl geometry, the dKP equation and twistor theory
- On self-dual gauge fields
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