Mathematics – Quantum Algebra
Scientific paper
2001-03-14
Mathematics
Quantum Algebra
37 pages, latex
Scientific paper
This is the second paper in a series to study regular representations for vertex operator algebras. In this paper, given a module $W$ for a vertex operator algebra $V$, we construct, out of the dual space $W^{*}$, a family of canonical (weak) $V\otimes V$-modules called ${\cal{D}}_{Q(z)}(W)$ parametrized by a nonzero complex number $z$. We prove that for $V$-modules $W,W_{1}$ and $W_{2}$, a $Q(z)$-intertwining map of type ${W'\choose W_{1}W_{2}}$ in the sense of Huang and Lepowsky exactly amounts to a $V\otimes V$-homomorphism from $W_{1}\otimes W_{2}$ to ${\cal{D}}_{Q(z)}(W)$ and that a $Q(z)$-tensor product of $V$-modules $W_{1}$ and $W_{2}$ in the sense of Huang and Lepowsky amounts to a universal from $W_{1}\otimes W_{2}$ to the functor ${\cal{F}}_{Q(z)}$, where ${\cal{F}}_{Q(z)}$ is a functor from the category of $V$-modules to the category of weak $V\otimes V$-modules defined by ${\cal{F}}_{Q(z)}(W)={\cal{D}}_{Q(z)}(W')$ for a $V$-module $W$. Furthermore, Huang-Lepowsky's $P(z)$ and $Q(z)$-tensor functors for the category of $V$-modules are extended to functors $T_{P(z)}$ and $T_{Q(z)}$ from the category of $V\otimes V$-modules to the category of $V$-modules. It is proved that functors ${\cal{F}}_{P(z)}$ and ${\cal{F}}_{Q(z)}$ are right adjoints of $T_{P(z)}$ and $T_{Q(z)}$, respectively.
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