活性物质
不稳定性
物理
螺旋(铁路)
湍流
统计物理学
粒度
经典力学
扩散
机械
同步(交流)
动力学(音乐)
变形(气象学)
图案形成
计算机科学
量子力学
生物
气象学
操作系统
细胞生物学
频道(广播)
数学分析
遗传学
数学
计算机网络
声学
作者
Yiwei Zhang,Étienne Fodor
标识
DOI:10.1103/physrevlett.131.238302
摘要
We reveal that the mechanical pulsation of locally synchronized particles is a generic route to propagate deformation waves. We consider a model of dense repulsive particles whose activity drives periodic change in size of each individual. The dynamics is inspired by biological tissues where cells consume fuel to sustain active deformation. We show that the competition between repulsion and synchronization triggers an instability which promotes a wealth of dynamical patterns, ranging from spiral waves to defect turbulence. We identify the mechanisms underlying the emergence of patterns, and characterize the corresponding transitions. By coarse-graining the dynamics, we propose a hydrodynamic description of an assembly of pulsating particles, and discuss an analogy with reaction-diffusion systems.
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