Transport properties in multilayer adsorption of dimers

In this paper, we study the transport properties (percolation and conductivity) of a two-dimensional structure created by depositing dimers on a one-dimensional substrate where multilayer deposition is allowed. Specifically, we are interested in studying how the mentioned properties vary as a function of the height of the multilayer. The critical parameters of the percolation transition are calculated using finite-size scaling analysis, obtaining the scaling laws for the probability of percolation and the conductivity of the system. To calculate the electrical conductivity of the multilayer, we use the Frank-Lobb algorithm.

Automated summary

This paper investigates the transport properties (percolation and conductivity) of a two-dimensional structure formed by depositing dimers on a one-dimensional substrate allowing multilayer deposition. The focus is on studying the variations of these properties with the height of the multilayer. The critical parameters of the percolation transition are calculated using finite-size scaling analysis, obtaining scaling laws for the probability of percolation and the conductivity of the system. The electrical conductivity of the multilayer is calculated using the Frank-Lobb algorithm.