A tensor category construction of the $W_{p,q}$ triplet vertex operator algebra and applications

Abstract: For coprime $p,q\in\mathbb{Z}{\geq 2}$, the triplet vertex operator algebra $W{p,q}$ is a non-simple extension of the universal Virasoro vertex operator algebra of central charge $c_{p,q}=1-\frac{6(p-q)^2}{pq}$, and it is a basic example of a vertex operator algebra appearing in logarithmic conformal field theory. Here, we give a new construction of $W_{p,q}$ different from the original screening operator definition of Feigin-Gainutdinov-Semikhatov-Tipunin. Using our earlier work on the tensor category structure of modules for the Virasoro algebra at central charge $c_{p,q}$, we show that the simple modules appearing in the decomposition of $W_{p,q}$ as a module for the Virasoro algebra have $PSL_2$-fusion rules and generate a symmetric tensor category equivalent to $\mathrm{Rep}\,PSL_2$. Then we use the theory of commutative algebras in braided tensor categories to construct $W_{p,q}$ as an appropriate non-simple modification of the canonical algebra in the Deligne tensor product of $\mathrm{Rep}\,PSL_2$ with this Virasoro subcategory. As a consequence, we show that the automorphism group of $W_{p,q}$ is $PSL_2(\mathbb{C})$. We also define a braided tensor category $\mathcal{O}{c{p,q}}^0$ consisting of modules for the Virasoro algebra at central charge $c_{p,q}$ that induce to untwisted modules of $W_{p,q}$. We show that $\mathcal{O}{c{p,q}}^0$ tensor embeds into the $PSL_2(\mathbb{C})$-equivariantization of the category of $W_{p,q}$-modules and is closed under contragredient modules. We conjecture that $\mathcal{O}{c{p,q}}^0$ has enough projective objects and is the correct category of Virasoro modules for constructing logarithmic minimal models in conformal field theory.