Anisotropy of Magnetoresistance Hysteresis around the =2/3 Quantum Hall State in Tilted Magnetic Field

Abstract

We present an anisotropy of the hysteretic transport around the spin transition point at Landau level filling factor =2/3 in tilted magnetic field. When the direction of the in-plane component of the magnetic field B is normal to the probe current I, a strong hysteretic transport due to the current-induced nuclear spin polarization occurs. When B is parallel to I, on the other hand, the hysteresis almost disappears. We also demonstrate that the nuclear spin-lattice relaxation rate T1-1 at the transition point increases with decreasing angle between the directions of B and I. These results suggest that the morphology of electron spin domains around =2/3 is affected by the current direction.