Wetting and layering for Solid-on-Solid I: Identification of the wetting point and critical behavior

Abstract

We provide a complete description of the low temperature wetting transition for the two dimensional Solid-On-Solid model. More precisely we study the integer-valued field (φ(x))x∈ Z2, associated associated to the energy functional V(φ)=β Σx y|φ(x)-φ(y)|-Σx(h 1\φ(x)=0\-∞ 1\φ(x)<0\ ). It is known since the pioneering work of Chalker (J. Phys. A 15 (1982) 481-485) that for every β, there exists hw(β)>0 delimiting a transition between a delocalized phase (h<hw(β)) where the proportion of points at level zero vanishes, and a localized phase (h>hw(β)) where this proportion is positive. We prove in the present paper that for β sufficiently large we have hw(β)= (e4βe4β-1). Furthermore we provide a sharp asymptotic for the free energy at the vicinity of the critical point: We show that close to hw(β), the free energy is approximately piecewise affine and that the points of discontinuity for the derivative of the affine approximation forms a geometric sequence accumulating on the right of hw(β). This asymptotic behavior provides a strong evidence for the conjectured existence of countably many "layering transitions" at the vicinity of the critical point, corresponding to jumps for the typical height of the field.