F. C. Alcaraz, R. Z. Bariev
Published 1999-04-09Version 1
A generalization of the simple exclusion asymmetric model is introduced. In this model an arbitrary mixture of molecules with distinct sizes $s = 0,1,2,...$, in units of lattice space, diffuses asymmetrically on the lattice. A related surface growth model is also presented. Variations of the distribution of molecules's sizes may change the excluded volume almost continuously. We solve the model exactly through the Bethe ansatz and the dynamical critical exponent $z$ is calculated from the finite-size corrections of the mass gap of the related quantum chain. Our results show that for an arbitrary distribution of molecules the dynamical critical behavior is on the Kardar-Parizi-Zhang (KPZ) universality.
Comments: 28 pages, 2 figures. To appear in Phys. Rev. E (1999)
Journal: Phys. Rev. E Vol. 60 pg. 79-88 (1999)
Exact Solution of Asymmetric Diffusion With N Classes of Particles of Arbitrary Size and Hierarchical Order
An Exact Solution for the Lattice Gas Model in One Dimension
Directed percolation in two dimensions: An exact solution
