Synthesizes variational principles into a unified space-time minimum principle for dissipative mechanical systems using convex analysis and symplectic geometry.
Metriplectic formalism: friction and much more
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abstract
The metriplectic formalism couples Poisson brackets of the Hamiltonian description with metric brackets for describing systems with both Hamiltonian and dissipative components. The construction builds in asymptotic convergence to a preselected equilibrium state. Phenomena such as friction, electric resistivity, thermal conductivity and collisions in kinetic theories are well represented in this framework. In this paper we present an application of the metriplectic formalism of interest for the theory of control: a suitable torque is applied to a free rigid body, which is expressed through a metriplectic extension of its "natural" Poisson algebra. On practical grounds, the effect is to drive the body to align its angular velocity to rotation about a stable principal axis of inertia, while conserving its kinetic energy in the process. On theoretical grounds, this example shows how the non-Hamiltonian part of a metriplectic system may include convergence to a limit cycle, the first example of a non-zero dimensional attractor in this formalism. The method suggests a way to extend metriplectic dynamics to systems with general attractors, e.g. chaotic ones, with the hope of representing bio-physical, geophysical and ecological models.
fields
math-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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A family of variational principles of minima for the plasticity, the friction contact and the fracture mechanics
Synthesizes variational principles into a unified space-time minimum principle for dissipative mechanical systems using convex analysis and symplectic geometry.