Spin Polarization of the 12/5 Fractional Quantum Hall Effect

Abstract

We have carried out tilt magnetic field (B) studies of the =12/5 fractional quantum Hall state in an ultra-high quality GaAs quantum well specimen. Its diagonal magneto-resistance Rxx shows a non-monotonic dependence on tilt angle (θ). It first increases sharply with increasing θ, reaches a maximal value of ~ 70 ohms at θ ~ 14o, and then decreases at higher tilt angles. Correlated with this dependence of Rxx on θ, the 12/5 activation energy (12/5) also shows a non-monotonic tilt dependence. 12/5 first decreases with increasing θ. Around θ = 14o, 12/5 disappears as Rxx becomes non-activated. With further increasing tilt angles, 12/5 reemerges and increases with θ. This tilt B dependence at =12/5 is strikingly different from that of the well-documented 5/2 state and calls for more investigations on the nature of its ground state.