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Glass-like behavior of a hard-disk fluid confined to a narrow channel

Disks moving in a narrow channel have many features in common with the glassy behavior of hard spheres in three dimensions. In this paper we study the caging behavior of the disks which sets in at characteristic packing fraction $ϕ_d$. Four-point overlap functions similar to those studied when investigating dynamical heterogeneities have been determined from event driven molecular dynamics simulations and the time dependent dynamical length scale has been extracted from them. The dynamical length scale increases with time and, on the equilibration time scale, it is proportional to the static length scale associated with the zigzag ordering in the system, which grows rapidly above $ϕ_d$. The structural features responsible for the onset of caging and the glassy behavior are easy to identify as they show up in the structure factor, which we have determined exactly from the transfer matrix approach.

preprint2016arXivOpen access
J. F. RobinsonM. J. GodfreyM. A. Moore
cond-mat.stat-mechcond-mat.dis-nn
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J. F. RobinsonM. J. GodfreyM. A. Moore

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