Energy Product Entropy VS Statistical Entropy-An Analytic Quantum Thermodynamics Perspective

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Abstract

This paper introduces a novel entropy formulation — multiplicative entropy — defined as the product of energy values across all units in a a quantized homogeneous invariant network. Unlike traditional statistical entropy, this approach explicitly tracks irreversible energy redistribution pathways, offering an analytic and path-dependent description of entropy growth. Logarithmic transformation recovers classical entropy forms, while preserving temporal directionality and quantum-scale resolution. The model enables precise simulation of thermodynamic processes, supporting the development of Analytic Quantum Thermodynamics as a new framework for understanding entropy-driven dynamics.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00