A mode-coupling theory for active glasses finds that the aging exponent δ decreases with self-propulsion force f0 while depending on persistence time τp in a manner set by the modified critical point λC.
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Feedback between cytoskeletal activity and elastic stress in a vertex model drives an isotropic-nematic transition, yielding a soft elastic solid and a plastic nematic solid with long-range flow correlations at higher activity.
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Mode-coupling theory for aging in active glasses: relaxation dynamics and evolution towards steady state
A mode-coupling theory for active glasses finds that the aging exponent δ decreases with self-propulsion force f0 while depending on persistence time τp in a manner set by the modified critical point λC.
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Feedback-controlled epithelial mechanics: emergent soft elasticity and active yielding
Feedback between cytoskeletal activity and elastic stress in a vertex model drives an isotropic-nematic transition, yielding a soft elastic solid and a plastic nematic solid with long-range flow correlations at higher activity.