Universality of the power-law approach to the jamming limit in random sequential adsorption dynamics

Abstract

Random sequential adsorption (RSA), on a two-dimensional continuum substrate, of different types of zero area objects that disallow domain formation and hence lead to jamming, is examined by simulation. In all the cases, in the asymptotic time regime, the approach of the number density p(t) at instant t to jamming density p(∞) is found to exhibit power law p(∞)-p(t)~t^-p as that for RSA of finite area objects. These results suggest the possibility of the power law being universal for all jamming systems in RSA on a continuum substrate. A generalized analytical treatment is also proposed.