密集型和广泛型活性液滴之间的临界过渡

Jonathan Bauermann, Giacomo Bartolucci, Job Boekhoven, Frank Jülicher, Christoph A. Weber
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摘要

乳液在成熟过程中,液滴的平均粒径会随着时间的推移而增大。在化学性质活跃的乳液中,粗化现象可能不存在,从而导致单分散液滴大小的非平衡稳态。通过考虑相分离和化学反应维持在非平衡状态的最小模型,我们发现在两类化学活性液滴(密集型和广延型)之间存在守恒量的临界转换。单个密集型活性液滴达到的静止大小主要受反应-扩散长度尺度的控制。乳液中的密集型液滴的相互作用很弱,单个液滴的静止大小大约决定了每个液滴的大小。相反,单个广泛活性液滴的大小与系统大小成比例,与被动相类似。在由许多广泛液滴组成的乳液中,只有当它们之间发生相互作用时,它们的尺寸才会变得恒定。我们讨论了密集型和广泛型活性液滴之间的临界过渡如何影响形状不稳定性,包括活性液滴的分裂,为观察化学活性乳液中的连续分裂事件铺平了道路。
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Critical transition between intensive and extensive active droplets
Emulsions ripen with an average droplet size increasing in time. In chemically active emulsions, coarsening can be absent, leading to a non-equilibrium steady state with mono-disperse droplet sizes. By considering a minimal model for phase separation and chemical reactions maintained away from equilibrium, we show that there is a critical transition in the conserved quantity between two classes of chemically active droplets: intensive and extensive ones. Single intensive active droplets reach a stationary size mainly controlled by the reaction-diffusion length scales. Intensive droplets in an emulsion interact only weakly, and the stationary size of a single droplet approximately sets the size of each droplet. On the contrary, the size of a single extensive active droplet scales with the system size, similar to passive phases. In an emulsion of many extensive droplets, their sizes become stationary only due to interactions among them. We discuss how the critical transition between intensive and extensive active droplets affects shape instabilities, including the division of active droplets, paving the way for the observation of successive division events in chemically active emulsions
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