Hamiltonian of mean force and dissipative scalar field theory
Marjan Jafari, Fardin Kheirandish
TL;DR
This paper applies the Hamiltonian of mean force framework to a dissipative scalar field, deriving key thermodynamic quantities such as internal energy, free energy, and entropy.
Contribution
It introduces a novel application of the Hamiltonian of mean force to dissipative scalar fields, providing explicit thermodynamic characterizations.
Findings
Derived expressions for internal energy, free energy, and entropy of the dissipative scalar field.
Established a theoretical foundation connecting dissipation with thermodynamic properties.
Demonstrated the applicability of the Hamiltonian of mean force in quantum field contexts.
Abstract
In the framework of the Hamiltonian of mean force, internal energy, free energy and entropy of a dissipative scalar field are obtained.
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Taxonomy
TopicsAdvanced Thermodynamics and Statistical Mechanics · Quantum Mechanics and Applications · Relativity and Gravitational Theory