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Random packing dynamics of $Σ_{2v}(2π/3)$-triplets (2308.04580v1)

Published 8 Aug 2023 in cond-mat.stat-mech

Abstract: In this letter, we used a combination of DEM and the multi-sphere method to investigate the random packing dynamics of $\Sigma_{2v}(2\pi/3)$-triplets. These triplets consist of three overlapping primary spheres, forming a bent structure with a bond angle of $2\pi/3$ and belonging to the $C_{2v}$ symmetry group. The selection of this specific structure was motivated by its similarity to molecules such as water, which displays crucial physicochemical properties and finds extensive application in various fields. To ensure non-overlapping particles at the beginning of the simulations, the rectangular confinement box was divided into basic cells. Each triplet was then inserted into a basic cell with a random orientation. After that, the system is allowed to settle under gravity towards the bottom of the box. An implicit leapfrog algorithm with quaternion acceleration was used to numerically integrate the rotational motion equations. By assuming a molecular approach, we account for the long-range cohesive forces using a Lennard-Jones (LJ)-like potential. The packing processes are studied assuming different long-range interaction strengths. We performed statistical calculations of the different quantities studied including packing density, radial distribution function, and orientation pair correlation function. In addition, the force probability distributions in the random packing structures have been analyzed.

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