Zippering and Intermeshing: Novel Phase Diagrams for Interfaces and Films

25 March 1996

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 76 (13) , 2322-2325
https://doi.org/10.1103/physrevlett.76.2322

Abstract

New surface and layering phase diagrams are proposed based on generalized sine-Gordon models with and without a substrate potential. In particular, we find that the preroughening transition can be driven first order, explaining “zipper” features in heat capacity data for argon and krypton on graphite substrates. For different parameters, we predict the existence of a novel variant of den Nijs' disordered flat phase with spontaneously broken particle-hole symmetry and continuously varying surface height with an accompanying intermeshing layering phase diagram. The restricted solid-on-solid model displays zippering for sufficiently large second neighbor coupling.

This publication has 9 references indexed in Scilit:

Preroughening and Reentrant Layering Transitions on Triangular Lattice Substrates
Physical Review Letters, 1995
Ball-milling-induced amorphization in ${Ni}_{x}$ ${Zr}_{y}$ compounds: A parametric study
Physical Review B, 1993
Multilayer krypton phase diagram
Physical Review B, 1993
Reentrant first-order layering transitions in multilayer argon films on graphite
Physical Review Letters, 1990
Preroughening transitions in crystal surfaces and valence-bond phases in quantum spin chains
Physical Review B, 1989
Preroughening Transitions in Surfaces
Physical Review Letters, 1987
Renormalization-group analysis of layering transitions in solid films
Physical Review B, 1984
Hamiltonian studies of the $d = 2$ Ashkin-Teller model
Physical Review B, 1981
Renormalization, vortices, and symmetry-breaking perturbations in the two-dimensional planar model
Physical Review B, 1977