Multicomponent fractional quantum Hall states with subband and spin degrees of freedom

Abstract

In wide GaAs quantum wells where two electric subbands are occupied we apply a parallel magnetic field or increase the electron density to cause a crossing of the two N=0 Landau levels of these subbands and with opposite spins. Near the crossing, the fractional quantum Hall states in the filling factor range 1<<3 exhibit a remarkable sequence of pseudospin polarization transitions resulting from the interplay between the spin and subband degrees of freedom. The field positions of the transitions yield a new and quantitative measure of the composite Fermions' discrete energy level separations. Surprisingly, the separations are smaller when the electrons have higher spin-polarization.