Spatial derivatives of the nonaffine displacement field in strongly disordered materials exhibit exponential correlations governed by a tunable heterogeneity length scale ξ that can greatly exceed the structural correlation length.
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Brownian dynamics simulations demonstrate that multi-scale chromatin fiber geometry and network organization control the positioning, size, morphology, and multiplicity of liquid-liquid phase separated condensates via protein-fiber interactions.
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Large-scale exponential correlations of nonaffine elastic response of strongly disordered materials
Spatial derivatives of the nonaffine displacement field in strongly disordered materials exhibit exponential correlations governed by a tunable heterogeneity length scale ξ that can greatly exceed the structural correlation length.
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A Brownian dynamics study of liquid-liquid phase separation in multi-scale chromatin networks
Brownian dynamics simulations demonstrate that multi-scale chromatin fiber geometry and network organization control the positioning, size, morphology, and multiplicity of liquid-liquid phase separated condensates via protein-fiber interactions.