Abstract
Abstract
We study the T-system of type
A
∞
, also known as the octahedron recurrence/equation, viewed as a
2
+
1
-dimensional discrete evolution equation. Generalizing earlier work on arctic curves for the Aztec Diamond obtained from solutions of the octahedron recurrence with ‘flat’ initial data, we consider initial data along parallel ‘slanted’ planes perpendicular to an arbitrary admissible direction
(
r
,
s
,
t
)
∈
Z
+
3
. The corresponding solutions of the T-system are interpreted as partition functions of dimer models on some suitable ‘pinecone’ graphs introduced by Bousquet–Mélou, Propp, and West in 2009. The T-system formulation and some exact solutions in uniform or periodic cases allow us to explore the thermodynamic limit of the corresponding dimer models and to derive exact arctic curves separating the various phases of the system. This direct approach bypasses the standard general theory of dimers using the Kasteleyn matrix approach and uses instead the theory of Analytic Combinatorics in Several Variables, by focusing on a linear system obeyed by the dimer density generating function.
Funder
Morris and Gertrude Fine Endowment
David G. Bourgin Mathematics Fellowship and the University of Illinois at Urbana-Champaign Campus Research Board
Simons Foundation
National Science Foundation Division of Mathematical Sciences
Reference41 articles.
1. The mathematica files of the examples computed in this paper can be found at the following link:
2. Asymptotics of multivariate sequences, part III: quadratic points;Baryshnikov;Adv. Math.,2011
3. Biased 2×2 periodic Aztec diamond and an elliptic curve;Borodin;Probab. Theory Relat. Fields,2023
4. Perfect matchings for the three-term Gale-Robinson sequences;Bousquet-Mélou;Electron. J. Combin.,2009
5. On the domino shuffle and matrix refactorizations;Chhita;Commun. Math. Phys.,2023