Skein and cluster algebras of unpunctured surfaces for $\mathfrak{sl}_3$

Abstract: For an unpunctured marked surface $\Sigma$, we consider a skein algebra $\mathscr{S}{\mathfrak{sl}{3},\Sigma}^{q}$ consisting of $\mathfrak{sl}3$-webs on $\Sigma$ with the boundary skein relations at marked points. We construct a quantum cluster algebra $\mathscr{A}^q{\mathfrak{sl}3,\Sigma}$ inside the skew-field $\mathrm{Frac}\mathscr{S}{\mathfrak{sl}{3},\Sigma}^{q}$ of fractions, which quantizes the cluster $K_2$-structure on the moduli space $\mathcal{A}{SL_3,\Sigma}$ of decorated $SL_3$-local systems on $\Sigma$. We show that the cluster algebra $\mathscr{A}^q_{\mathfrak{sl}_3,\Sigma}$ contains the boundary-localized skein algebra $\mathscr{S}{\mathfrak{sl}{3},\Sigma}^{q}[\partial^{-1}]$ as a subalgebra, and their natural structures, such as gradings and certain group actions, agree with each other. We also give an algorithm to compute the Laurent expressions of a given $\mathfrak{sl}_3$-web in certain clusters and discuss the positivity of coefficients. In particular, we show that the bracelets and the bangles along an oriented simple loop in $\Sigma$ have Laurent expressions with positive coefficients, hence give rise to quantum GS-universally positive Laurent polynomials.