J. K. Slingerland, F. A. Bais
Published 2001-04-02Version 1
Wave functions describing quasiholes and electrons in nonabelian quantum Hall states are well known to correspond to conformal blocks of certain coset conformal field theories. In this paper we explicitly analyse the algebraic structure underlying the braiding properties of these conformal blocks. We treat the electrons and the quasihole excitations as localised particles carrying charges related to a quantum group that is determined explicitly for the cases of interest. The quantum group description naturally allows one to analyse the braid group representations carried by the multi-particle wave functions. As an application, we construct the nonabelian braid group representations which govern the exchange of quasiholes in the fractional quantum Hall effect states that have been proposed by N. Read and E. Rezayi, recovering the results of C. Nayak and F. Wilczek for the Pfaffian state as a special case.
Comments: 60 pages, 7 figures, LaTeX, uses AMSfonts
Journal: Nucl.Phys. B612 (2001) 229-290
Universality in Quantum Hall Systems: Coset Construction of Incompressible States
The quantum group, Harper equation and the structure of Bloch eigenstates on a honeycomb lattice
Geometrical and Algebraic Structures in Quantum Hall Systems
