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Main Authors: Vijayan, Vinesh, Thejasree, Pasupuleti, Kumar, P Satish, Suganya, K
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.12156
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author Vijayan, Vinesh
Thejasree, Pasupuleti
Kumar, P Satish
Suganya, K
author_facet Vijayan, Vinesh
Thejasree, Pasupuleti
Kumar, P Satish
Suganya, K
contents We develop a unified geometric framework for mechanical systems that combine conservative and dissipative dynamics by formulating them on contact manifolds. Within this setting, we identify the Reeb vector field as the intrinsic generator of irreversibility and derive explicit laws describing how dissipation modifies symmetry reduction and momentum evolution. As a concrete application, we construct the contact Hamiltonian formulation of the rigid body with isotropic and anisotropic damping, classify all equilibrium configurations, and analyze their stability. Building on this continuous formulation, we design a second-order structure preserving contact variational integrator obtained by a symmetric splitting of kinetic, potential, and dissipative components. Numerical experiments for representative dissipative systems demonstrate accurate energy decay, geometric consistency, and recovery of the symplectic Verlet scheme in the conservative limit. The proposed framework provides a coherent connection between the geometry of contact dynamics, physical irreversibility, and numerically stable integration, offering new tools for the analysis of mixed conservative dissipative mechanical systems.
format Preprint
id arxiv_https___arxiv_org_abs_2512_12156
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Geometric Formulation of Combined Conservative Dissipative Mechanics via Contact Hamiltonian Dynamics Symmetries, Reduction, and Variational Integrators
Vijayan, Vinesh
Thejasree, Pasupuleti
Kumar, P Satish
Suganya, K
Mathematical Physics
We develop a unified geometric framework for mechanical systems that combine conservative and dissipative dynamics by formulating them on contact manifolds. Within this setting, we identify the Reeb vector field as the intrinsic generator of irreversibility and derive explicit laws describing how dissipation modifies symmetry reduction and momentum evolution. As a concrete application, we construct the contact Hamiltonian formulation of the rigid body with isotropic and anisotropic damping, classify all equilibrium configurations, and analyze their stability. Building on this continuous formulation, we design a second-order structure preserving contact variational integrator obtained by a symmetric splitting of kinetic, potential, and dissipative components. Numerical experiments for representative dissipative systems demonstrate accurate energy decay, geometric consistency, and recovery of the symplectic Verlet scheme in the conservative limit. The proposed framework provides a coherent connection between the geometry of contact dynamics, physical irreversibility, and numerically stable integration, offering new tools for the analysis of mixed conservative dissipative mechanical systems.
title Geometric Formulation of Combined Conservative Dissipative Mechanics via Contact Hamiltonian Dynamics Symmetries, Reduction, and Variational Integrators
topic Mathematical Physics
url https://arxiv.org/abs/2512.12156