Physics – Condensed Matter – Disordered Systems and Neural Networks
Scientific paper
2004-04-08
Physics
Condensed Matter
Disordered Systems and Neural Networks
4 pages, 4 figures; 1.8 MB pdf file; Submitted to Physical Review Letters
Scientific paper
We study a simple 1D model of dust rods, with mean size \mu, passing through a parallel 1D alignment of pores as a problem of clogging of a filter by dust grains; \mu is kept less than the pore size, s. We assume that the filter is "sticky", characterized by some parameter 0 \le \lambda \le 1, which means that dust grains slightly smaller in size than s can get trapped in the pores. Our analyses suggest that the number of clogged pores, N_{cl}, grows in time as t_N^{clog} \propto N_{cl}^{\nu}, where \nu = \nu(\mu,\lambda) is a non-universal exponent that depends upon the dust size distribution and filter properties.
Krishna Mohan T. R.
Sen Surajit
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