Configurational entropy of 2D supercooled liquids is computed as the decay rate of recurrent structural patterns with patch size using a higher-dimensional Grassberger-Procaccia algorithm, agreeing quantitatively with conventional definitions and matching aging states at equal inherent-structure ene
arXiv preprint arXiv:2507.03590 , year=
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Monte Carlo simulations of the balanced p=4 spin glass find direct paramagnetic to full RSB transition with renormalized lambda less than 1 and indicate zero Kauzmann temperature in 3D-like regimes.
The paper reviews key computational methods for ultrastable glasses, discusses their efficiency and limitations, and compares the stability levels achieved.
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Entropy of Liquids and Glasses from Recurring Structural Patterns
Configurational entropy of 2D supercooled liquids is computed as the decay rate of recurrent structural patterns with patch size using a higher-dimensional Grassberger-Procaccia algorithm, agreeing quantitatively with conventional definitions and matching aging states at equal inherent-structure ene
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The Phase Transitions in a $p$ spin Glass Model: A Numerical Study
Monte Carlo simulations of the balanced p=4 spin glass find direct paramagnetic to full RSB transition with renormalized lambda less than 1 and indicate zero Kauzmann temperature in 3D-like regimes.
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Computational Methods towards Ultrastable Glasses
The paper reviews key computational methods for ultrastable glasses, discusses their efficiency and limitations, and compares the stability levels achieved.