Universal Aging Dynamics in Granular Gases

Research Paper#Granular Gases, Physics, Molecular Dynamics🔬 Research|Analyzed: Jan 3, 2026 18:34
Published: Dec 29, 2025 17:29
1 min read
ArXiv

Analysis

This paper provides quantitative benchmarks for aging in 3D driven dissipative gases. The findings on energy decay time, steady-state temperature, and velocity autocorrelation function offer valuable insights into the behavior of granular gases, which are relevant to various fields like material science and physics. The large-scale simulations and the reported scaling laws are significant contributions.
Reference / Citation
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"The characteristic energy decay time exhibits a universal inverse scaling $τ_0 \propto ε^{-1.03 \pm 0.02}$ with the dissipation parameter $ε= 1 - e^2$."
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ArXivDec 29, 2025 17:29
* Cited for critical analysis under Article 32.
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Source: ArXiv