Free Energy and Quark Potential in Ising Lattice Gauge Theory via Cluster Expansions

Artikel i vetenskaplig tidskrift, 2025

We revisit the cluster expansion for Ising lattice gauge theory on $\mathbb{Z}<^>{m}, \, m \geqslant 3,$ with Wilson's action, at a fixed inverse temperature $ \beta $ in the low-temperature regime. We prove existence and analyticity of the infinite volume limit of the free energy and compute the first few terms in its expansion in powers of $e<^>{-\beta }$. We further analyze Wilson loop expectations and derive an estimate that shows how the lattice scale geometry of a loop is reflected in the large $\beta $ asymptotic expansion. Specializing to axis parallel rectangular loops $\gamma _{T,R}$ with side-lengths $T$ and $R$, we consider the limiting function $ V_\beta (R) := \lim _{T \to \infty } - \frac{1}{T} \log \, \langle W_{\gamma _{T,R}} \rangle _\beta , $ known as the static quark potential in the physics literature. We verify the existence of the limit (with an estimate on the convergence rate) and compute the first few terms in the expansion in powers of $e<^>{-\beta }$. As a consequence, a strong version of the perimeter law follows. We also treat $- \log \, \langle W_{\gamma _{T,R}} \rangle _\beta / (T+R)$ as $T, R$ tend to infinity simultaneously and give analogous estimates.