A phase diagram for the diatomic hard-point gas identifies kinetic, intermediate Bogoliubov, and hydrodynamic regimes of thermalization, with consistent heat transport behavior that depends on the order of thermodynamic limits.
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Molecular dynamics simulations identify ballistic, kinetic, and hydrodynamic regimes in heat conduction for quasi-2D and 3D momentum-conserving fluids, with a dimensional crossover from logarithmically divergent to finite thermal conductivity.
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From Near-Integrable to Far-from-Integrable: A Unified Picture of Thermalization and Heat Transport
A phase diagram for the diatomic hard-point gas identifies kinetic, intermediate Bogoliubov, and hydrodynamic regimes of thermalization, with consistent heat transport behavior that depends on the order of thermodynamic limits.
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Heat Conduction in Momentum-Conserving Fluids: From quasi-2D to 3D systems
Molecular dynamics simulations identify ballistic, kinetic, and hydrodynamic regimes in heat conduction for quasi-2D and 3D momentum-conserving fluids, with a dimensional crossover from logarithmically divergent to finite thermal conductivity.