M. A. Cazalilla, N. Barberan, N. R. Cooper
Published 2004-08-25, updated 2004-12-11Version 3
The edge excitations and related topological orders of correlated states of a fast rotating Bose gas are studied. Using exact diagonalization of small systems, we compute the energies and number of edge excitations, as well as the boson occupancy near the edge for various states. The chiral Luttinger-liquid theory of Wen is found to be a good description of the edges of the bosonic Laughlin and other states identified as members of the principal Jain sequence for bosons. However, we find that in a harmonic trap the edge of the state identified as the Moore-Read (Pfaffian) state shows a number of anomalies. An experimental way of detecting these correlated states is also discussed.
Comments: Results extended to larger systems. Improved presentation
Journal: Phys. Rev. B 71, 121303(R) (2005)
Topological Entropy of Quantum Hall States in Rotating Bose Gases
Bulk and edge excitations of a $ν=1$ Hall ferromagnet
Experimental probe of topological orders and edge excitations in the second Landau level
