Add to ORKGWe develop a Hamiltonian theory of a time dispersive and dissipative inhomogeneous medium, as described by a linear response equation respecting causality and power dissipation. The proposed Hamiltonian couples the given system to auxiliary fields, in the universal form of a so-called canonical heat bath. After integrating out the heat bath the original dissipative evolution is exactly reproduced. Furthermore, we show that the dynamics associated to a minimal Hamiltonian are essentially unique, up to a natural class of isomorphisms. Using this formalism, we obtain closed form expressions for the energy density, energy flux, momentum density, and stress tensor involving the auxiliary fields, from which we derive an approximate, “Brillouin-ty...
The Hamiltonian viewpoint of fluid mechanical systems with few and infinite number of degrees of fre...
Acknowledgment This work is supported by the National Natural Science Foundation of China (11732014)...
International audienceBy using the Hamilton principle of stationary action, we derive the governing ...
AbstractWe develop a Hamiltonian theory for a time dispersive and dissipative (TDD) inhomogeneous me...
AbstractWe develop a Hamiltonian theory for a time dispersive and dissipative (TDD) inhomogeneous me...
We study linear time dispersive and dissipative systems. Very often such systems are not conservativ...
Suppose that $H(q,p)$ is a Hamiltonian on a manifold M, and $\tilde L(q,\dot q)$, the Rayleigh di...
Dissipative systems are described by a Hamiltonian, combined with a “dynamical matrix” which general...
We give a systematic method for discretizing Hamiltonian partial differential equations (PDEs) with ...
This work addresses existence of traveling waves for systems of conservation laws through an Hamilto...
The long time–evolution of disturbances to slowly–varying solutions of partial differential equation...
The uniformly damped Korteweg¿de Vries (KdV) equation with periodic boundary conditions can be viewe...
Pure quantum mechanics can be formulated as a Hamiltonian system in terms of the Liouville equation ...
The Hamiltonian viewpoint of fluid mechanical systems with few and infinite number of degrees of fre...
Dissipative systems are investigated within the framework of the Hamilton-Jacobi equation. The princ...
The Hamiltonian viewpoint of fluid mechanical systems with few and infinite number of degrees of fre...
Acknowledgment This work is supported by the National Natural Science Foundation of China (11732014)...
International audienceBy using the Hamilton principle of stationary action, we derive the governing ...
AbstractWe develop a Hamiltonian theory for a time dispersive and dissipative (TDD) inhomogeneous me...
AbstractWe develop a Hamiltonian theory for a time dispersive and dissipative (TDD) inhomogeneous me...
We study linear time dispersive and dissipative systems. Very often such systems are not conservativ...
Suppose that $H(q,p)$ is a Hamiltonian on a manifold M, and $\tilde L(q,\dot q)$, the Rayleigh di...
Dissipative systems are described by a Hamiltonian, combined with a “dynamical matrix” which general...
We give a systematic method for discretizing Hamiltonian partial differential equations (PDEs) with ...
This work addresses existence of traveling waves for systems of conservation laws through an Hamilto...
The long time–evolution of disturbances to slowly–varying solutions of partial differential equation...
The uniformly damped Korteweg¿de Vries (KdV) equation with periodic boundary conditions can be viewe...
Pure quantum mechanics can be formulated as a Hamiltonian system in terms of the Liouville equation ...
The Hamiltonian viewpoint of fluid mechanical systems with few and infinite number of degrees of fre...
Dissipative systems are investigated within the framework of the Hamilton-Jacobi equation. The princ...
The Hamiltonian viewpoint of fluid mechanical systems with few and infinite number of degrees of fre...
Acknowledgment This work is supported by the National Natural Science Foundation of China (11732014)...
International audienceBy using the Hamilton principle of stationary action, we derive the governing ...