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Phase transitions in 2D multistable mechanical metamaterials via collisions of soliton-like pulses

Weijian Jiao, Hang Shu, Vincent Tournat, Hiromi Yasuda and Jordan R. Raney ()
Additional contact information
Weijian Jiao: University of Pennsylvania
Hang Shu: University of Pennsylvania
Vincent Tournat: Le Mans Université
Hiromi Yasuda: University of Pennsylvania
Jordan R. Raney: University of Pennsylvania

Nature Communications, 2024, vol. 15, issue 1, 1-8

Abstract: Abstract In recent years, mechanical metamaterials have been developed that support the propagation of an intriguing variety of nonlinear waves, including transition waves and vector solitons (solitons with coupling between multiple degrees of freedom). Here we report observations of phase transitions in 2D multistable mechanical metamaterials that are initiated by collisions of soliton-like pulses in the metamaterial. Analogous to first-order phase transitions in crystalline solids, we observe that the multistable metamaterials support phase transitions if the new phase meets or exceeds a critical nucleus size. If this criterion is met, the new phase subsequently propagates in the form of transition waves, converting the rest of the metamaterial to the new phase. More interestingly, we numerically show, using an experimentally validated model, that the critical nucleus can be formed via collisions of soliton-like pulses. Moreover, the rich direction-dependent behavior of the nonlinear pulses enables control of the location of nucleation and the spatio-temporal shape of the growing phase.

Date: 2024
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DOI: 10.1038/s41467-023-44293-w

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