Evidence of a higher-order singularity in dense short-ranged attractive colloids

Abstract

We study a model in which particles interact through a hard-core repulsion complemented by a short-ranged attractive potential, of the kind found in colloidal suspensions. Combining theoretical and numerical work we locate the line of higher-order glass transition singularities and its end-point -- named A4 -- on the fluid-glass line. Close to the A4 point, we detect logarithmic decay of density correlations and sub linear power-law increase of the mean square displacement, for time intervals up to four order of magnitudes. We establish the presence of the A4 singularity by studying how the range of the potential affects the time-window where anomalous dynamics is observed.

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