Abstract
We provide numerical evidence that the ground state of a short-range-interaction model at ν=1/2 is incompressible and spin singlet for a wide range of repulsive interactions. Furthermore it is accurately described by a trial wave function studied earlier. For the Coulomb interaction we find that this wave function provides a good description of the lowest-lying spin-singlet state, and propose that fractional quantum Hall effect would occur at ν=1/2 if this state became the global ground state. Some conclusions of an earlier paper are invalidated by the present numerical study of a larger system; these will be indicated.
- Received 1 July 1993
DOI:https://doi.org/10.1103/PhysRevB.48.15245
©1993 American Physical Society