Optimizing hyperuniformity and local ordering without changing particle diameters produces no stability gain, showing that diameter dynamics drives ultrastability rather than the optimized quantities.
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Re-examination of minimal models for sheared particles reveals anomalous absorbing-state criticality at high densities, including new transitions and Griffiths smearing, explained by a fractional-time field theory.
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Identifying the relevant parameters in design strategies for stable glasses
Optimizing hyperuniformity and local ordering without changing particle diameters produces no stability gain, showing that diameter dynamics drives ultrastability rather than the optimized quantities.
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Anomalous Criticality of Absorbing State Transition toward Jamming
Re-examination of minimal models for sheared particles reveals anomalous absorbing-state criticality at high densities, including new transitions and Griffiths smearing, explained by a fractional-time field theory.