Operator Coproduct-Realization of Quantum Group Transformations in Two Dimensional Gravity, I.
Abstract
A simple connection between the universal matrix of (for spins and ) and the required form of the co-product action of the Hilbert space generators of the quantum group symmetry is put forward. This gives an explicit operator realization of the co-product action on the covariant operators. It allows us to derive the quantum group covariance of the fusion and braiding matrices, although it is of a new type: the generators depend upon worldsheet variables, and obey a new central extension of realized by (what we call) fixed point commutation relations. This is explained by showing that the link between the algebra of field transformations and that of the co-product generators is much weaker than previously thought. The central charges of our extended algebra, which includes the Liouville zero-mode momentum in a nontrivial way are related to Virasoro-descendants of unity. We also show how our approach can be used to derive the Hopf algebra structure of the extended quantum-group symmetry related to the presence of both of the screening charges of 2D gravity.
Cite
@article{arxiv.hep-th/9503198,
title = {Operator Coproduct-Realization of Quantum Group Transformations in Two Dimensional Gravity, I.},
author = {E. Cremmer and J. -L. Gervais and J. Schnittger},
journal= {arXiv preprint arXiv:hep-th/9503198},
year = {2009}
}
Comments
33 pages, latex, no figures