Crossover Scaling Functions in One Dimensional Dynamic Growth Models
Abstract
The crossover from Edwards-Wilkinson (s=0) to KPZ (s>0) type growth is studied for the BCSOS model. We calculate the exact numerical values for the k=0 and 2π/N massgap for N≤ 18 using the master equation. We predict the structure of the crossover scaling function and confirm numerically that m0 4 (π/N)2 [1+3u2(s) N/(2π2)]0.5 and m1 2 (π/N)2 [1+ u2(s) N/π2]0.5, with u(1)=1.03596967. KPZ type growth is equivalent to a phase transition in meso-scopic metallic rings where attractive interactions destroy the persistent current; and to endpoints of facet-ridges in equilibrium crystal shapes.
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