scholarly journals oundary One-Point Function of the Rational Six-Vertex Model with Partial Domain Wall Boundary Conditions: Explicit Formulas and Scaling Properties

2021 ◽  
Author(s):  
Mikhail D. Minin ◽  
◽  
Andrei G. Pronko ◽  
Keyword(s):  
Domain Wall ◽  
Boundary Conditions ◽  
Saddle Point Method ◽  
Vertex Model ◽  
Point Function ◽  
Wall Boundary ◽  
Partial Domain ◽  
Wall Boundary Conditions ◽  
Domain Wall Boundary Conditions ◽  
The One

We consider the six-vertex model with the rational weights on an s by N square lattice with partial domain wall boundary conditions. We study the one-point function at the boundary where the free boundary conditions are imposed. For a finite lattice, it can be computed by the quantum inverse scattering method in terms of determinants. In the large N limit, the result boils down to an explicit terminating series in the parameter of the weights. Using the saddle-point method for an equivalent integral representation, we show that as s next tends to infinity, the one-point function demonstrates a step-wise behavior; at the vicinity of the step it scales as the error function. We also show that the asymptotic expansion of the one-point function can be computed from a second-order ordinary differential equation.

scholarly journals EXACT SOLUTION OF THE SIX-VERTEX MODEL WITH DOMAIN WALL BOUNDARY CONDITIONS: CRITICAL LINE BETWEEN DISORDERED AND ANTIFERROELECTRIC PHASES

2012 ◽  
Vol 01 (04) ◽  
pp. 1250012 ◽  
Author(s):  
PAVEL BLEHER ◽  
THOMAS BOTHNER
Keyword(s):  
Domain Wall ◽  
Boundary Conditions ◽  
Critical Line ◽  
Hilbert Problem ◽  
Steepest Descent Method ◽  
Vertex Model ◽  
Wall Boundary ◽  
Large N ◽  
Wall Boundary Conditions ◽  
Domain Wall Boundary Conditions

In the present paper we obtain the large N asymptotics of the partition function ZN of the six-vertex model with domain wall boundary conditions on the critical line between the disordered and antiferroelectric phases. Using the weights a = 1 - x, b = 1 + x, c = 2, |x| < 1, we prove that, as N → ∞, ZN = CFN2N1/12(1 + O(N-1)), where F is given by an explicit expression in x and the x-dependency in C is determined. This result reproduces and improves the one given in the physics literature by Bogoliubov, Kitaev and Zvonarev [Boundary polarization in the six-vertex model, Phys. Rev. E65 (2002) 026126]. Furthermore, we prove that the free energy exhibits an infinite-order phase transition between the disordered and antiferroelectric phases. Our proofs are based on the large N asymptotics for the underlying orthogonal polynomials which involve a non-analytical weight function, the Deift–Zhou non-linear steepest descent method to the corresponding Riemann–Hilbert problem, and the Toda equation for the tau-function.

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