A continuum model of active nematic networks shows that prescribed topological defects control stress patterns and resulting shapes in simulated Hydra morphogenesis, with +1 defects promoting protrusions and -1/2 defects stabilizing structures.
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Persistent homology analysis of Baijiu reveals a three-stage maturation pathway converging to a universal topological attractor that defines optimal aging independent of chronological time.
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Morphogenesis driven by nematic defects in active biological networks
A continuum model of active nematic networks shows that prescribed topological defects control stress patterns and resulting shapes in simulated Hydra morphogenesis, with +1 defects promoting protrusions and -1/2 defects stabilizing structures.
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From Vintage Mythology to Topological Physics: Unveiling a Universal Structural Attractor in Alcoholic Beverage Aging
Persistent homology analysis of Baijiu reveals a three-stage maturation pathway converging to a universal topological attractor that defines optimal aging independent of chronological time.