6533b7cffe1ef96bd125863a

RESEARCH PRODUCT

Continuum limit in random sequential adsorption.

Jian-sheng WangVladimir PrivmanPeter Nielaba

subject

PhysicsRandom sequential adsorptionLogarithmLattice (order)Monte Carlo methodCrossoverMultiplicative functionJammingStatistical physicsExponential function

description

We develop analytical estimates of the late-stage (long-time) asymptotic behavior of the coverage in the D-dimensional lattice models of irreversible deposition of hypercube-shaped particles. Our results elucidate the crossover from the exponential time dependence for the lattice case to the power-law behavior with a multiplicative logarithmic factor, in the continuum deposition. Numerical Monte Carlo results are reported for the two-dimensional (2D) deposition, both lattice and continuum. Combined with the exact 1D results, they are used to test the general theoretical expectations for the late-stage deposition kinetics. New accurate estimates of the jamming coverages in 2D rule out some earlier ``exact'' conjectures. Generally, a combination of lattice and continuum simulations, with asymptotic crossover analysis, allows for a deeper understanding of the deposition kinetics and derivation of improved numerical estimates.

yearjournalcountryeditionlanguage
1991-02-01Physical review. B, Condensed matter
10.1103/physrevb.43.3366https://pubmed.ncbi.nlm.nih.gov/9997649