Nambu Non-equilibrium Thermodynamics I: Foundation (2508.00207v1)

Abstract: We propose a novel framework of non-equilibrium thermodynamics, termed Nambu Non-equilibrium Thermodynamics (NNET), which integrates reversible dynamics governed by the Nambu bracket with irreversible dynamics driven by entropy gradients. This framework is developed axiomatically and enables the description of far-from-equilibrium systems in which entropy can transiently decrease -- a regime difficult to handle within conventional approaches such as Onsager's linear response theory, Prigogine's General Evolution Criterion (GEC), or the GENERIC framework. As an illustrative example, we analyze a triangular chemical reaction system. We demonstrate that, without assuming detailed balance or linearity, two geometric conserved quantities naturally emerge: one associated with cyclic symmetry in the reaction space, and another that vanishes under symmetric reaction rates. This highlights the extended descriptive power of NNET and its capacity to unify cyclic dynamics and dissipation within a covariant structure. The generalization to higher-order nonlinear systems and applications to oscillatory or spiking non-equilibrium behavior will be discussed in subsequent papers.