Dynamics of the Kirchhoff equations. I: Coincident centers of gravity and buoyancy
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Publication:992198
DOI10.1016/S0167-2789(98)00032-3zbMath1194.70009OpenAlexW2052624852WikidataQ127360370 ScholiaQ127360370MaRDI QIDQ992198
Jeffrey Jenkins, Naomi Ehrich Leonard, Philip J. Holmes
Publication date: 11 September 2010
Published in: Physica D (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/s0167-2789(98)00032-3
Dynamical systems in fluid mechanics, oceanography and meteorology (37N10) Stability for nonlinear problems in mechanics (70K20) Free motion of a rigid body (70E15) Stability of solutions to ordinary differential equations (34D20) Homoclinic and heteroclinic solutions to ordinary differential equations (34C37)
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Cites Work
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- Suppression of bursting
- Perturbed homoclinic solutions in reversible 1:1 resonance vector fields
- Quadratic integrals of the equations of motion of a rigid body in a liquid
- Controlling homoclinic orbits
- Homoclinic orbits in reversible systems and their applications in mechanics, fluids and optics
- Periodic solutions of Kirchhoff equations for the free motion of a rigid body in a fluid and the extended Lyusternik-Shnirel'man-Morse theory. I
- Spatially complex equilibria of buckled rods
- Cascades of homoclinic orbits to, and chaos near, a Hamiltonian saddle- center
- Stabilization of rigid body dynamics by internal and external torques
- Control of noisy heteroclinic cycles
- Stability of a bottom-heavy underwater vehicle
- Dissipation induced instabilities
- The Euler-Poincaré equations and double bracket dissipation
- Stability and drift of underwater vehicle dynamics: mechanical systems with rigid motion symmetry
- Nonlinear stability of fluid and plasma equilibria
- INTEGRABLE EULER EQUATIONS ON LIE ALGEBRAS ARISING IN PROBLEMS OF MATHEMATICAL PHYSICS
- Reversible Diffeomorphisms and Flows
- Chaotic motion of a solid through ideal fluid
- On the stability of motion of a body in a fluid
- Some possible motions of a heavy solid in a fluid
