Fundamental Research (Mar 2024)

The cooperative migration dynamics of particles correlates to the nature of hexatic–isotropic phase transition in 2D systems of corner-rounded hexagons

  • Zhanglin Hou,
  • Mingwei Liu,
  • Yiwu Zong,
  • Fangfu Ye,
  • Kun Zhao

Journal volume & issue
Vol. 4, no. 2
pp. 284 – 290

Abstract

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In the two-dimensional (2D) melting transition of colloidal systems, the hexatic–isotropic (H–I) transition can be either first-order or continuous. However, how particle dynamics differs at the single-particle level during these two different melting transitions remains to be disclosed. In this work, by Brownian dynamics (BD) simulations, we have systematically studied the dynamic behavior of corner-rounded hexagons during the H–I transition, for a range of corner-roundness ζ = 0.40 to 0.99 that covers the crossover from the continuous to first-order nature of H–I transition. The results show that hexagons with ζ ≤ 0.5 display a continuous H–I transition, whereas those with ζ ≥ 0.6 demonstrate a first-order H–I transition. Dynamic analysis shows different evolution pathways of the dominant cluster formed by migrating particles, which results in a droplet-like cluster structure for ζ = 0.40 hexagons and a tree-like cluster structure for ζ = 0.99 hexagons. Further investigations on the hopping activities of particles suggest a cooperative origin of migrating clusters. Our work provides a new aspect to understand the dependence of the nature of H–I transition on the roundness of hexagons through particle dynamic behavior.

Keywords