Dynamical frustration in parametrically driven space-time metamaterials produces topologically protected unidirectional phase dislocations that self-organize into synchronized defects in 2D.
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cond-mat.soft 2years
2026 2verdicts
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Active Brownian granular matter with polydisperse particle sizes remains fluid at packing fractions above the crystallization threshold, indicating activity can suppress the solid phase.
citing papers explorer
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Dynamical frustration in space-time metamaterials
Dynamical frustration in parametrically driven space-time metamaterials produces topologically protected unidirectional phase dislocations that self-organize into synchronized defects in 2D.
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Absence of solid phase in dense amorphous active granular matter
Active Brownian granular matter with polydisperse particle sizes remains fluid at packing fractions above the crystallization threshold, indicating activity can suppress the solid phase.