Thursday, April 25, 2013

1304.6667 (Igor Medved et al.)

Competing effects of interactions in the adsorbed and activated states
on surface diffusion at low temperatures
   [PDF]

Igor Medved, Anton Trnik, Robert Cerny
The competing influence of two types of interactions on surface diffusion is investigated: one of them, epsilon, acts between adsorbed particles, while the other one, eta, between activated and adsorbed particles. To this end, a specific lattice-gas model on a triangular, square, and hexagonal lattice is considered with an attractive epsilon and an attractive or repulsive eta, both restricted to nearest neighbors. For all three lattices the influence is qualitatively the same. Namely, when eta is neglected, then epsilon is shown to decelerate diffusion with a rate exponential in epsilon and inverse temperature. Moreover, when eta is present and epsilon is fixed, then a sufficiently attractive eta (relative to epsilon) accelerates diffusion exponentially fast in eta and inverse temperature. However, quite surprisingly, a repulsive or slightly attractive eta has practically no effect on diffusion. Finally, when eta is set proportional to epsilon via a parameter $a$, surface diffusion is exponentially accelerated (decelerated) for $a$ above (below) a threshold value equal to 4, 5/4, and 7/8 for the three lattices. Thus, an eta of strength comparable to epsilon is enough to boost diffusion on the square and hexagonal lattices, while an eta of a rather large strength is needed for the boost on the triangular lattice.
View original: http://arxiv.org/abs/1304.6667

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