An analytic model for a cooperative ballistic deposition in one dimension

Abstract

We formulate a model for a cooperative ballistic deposition (CBD) process whereby the incoming particles are correlated with the ones already adsorbed via attractive force. The strength of the correlation is controlled by a tunable parameter a that interpolates the classical car parking problem at a=0, the ballistic deposition at a=1 and the CBD model at a>1. The effects of the correlation in the CBD model are as follows. The jamming coverage q(a) increases with the strength of attraction a due to an ever increasing tendency of cluster formation. The system almost reaches the closest packing structure as a∞ but never forms a percolating cluster which is typical to 1D system. In the large a regime, the mean cluster size k increases as a1/2. Furthermore, the asymptotic approach towards the closest packing is purely algebraic both with a as q(∞)-q(a) a-1/2 and with k as q(∞)-q(k) k-1 where q(∞) 1.

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