Evolution of terrace-width distributions on vicinal surfaces: Fokker-Planck derivation of the generalized Wigner surmise.

Alberto Pimpinelli Hailu Gebremariam T L Einstein

Phys Rev Lett

Department of Physics, University of Maryland, College Park, Maryland 20742-4111, USA.

Published: December 2005

This study utilizes the Fokker-Planck equation to extend the Wigner surmise concept from energy-level spacing in quantum mechanics to the distribution of step widths on a vicinal surface.
It explores the behavior of steps influenced by arbitrary-strength repulsions, drawing parallels with one-dimensional models of non-interacting fermions.
The findings provide an analytical framework to describe how different initial distributions of steps—like bunches, cleaved crystals, and prequench states at various temperatures—evolve toward equilibrium.

We use a Fokker-Planck equation to justify the generalization of the Wigner surmise for the energy-level spacing in quantum systems to the simple expression for the equilibrium terrace-width distribution of steps--with arbitrary-strength repulsions--on a vicinal surface, taking advantage of analogies to one-dimensional models of interacting, spinless fermions. This approach leads to an analytic description of the evolution toward equilibrium of steps from several experimentally relevant initial distributions: step bunches, perfect cleaved crystals, and prequench equilibrated distributions at different temperatures.

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http://dx.doi.org/10.1103/PhysRevLett.95.246101	DOI Listing

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