Enhancement of the = 5/2 Fractional Quantum Hall State in a Small In-Plane Magnetic Field

Abstract

Using a 50-nm width, ultra-clean GaAs/AlGaAs quantum well, we have studied the Landau level filling factor = 5/2 fractional quantum Hall effect in a perpendicular magnetic field B 1.7 T and determined its dependence on tilted magnetic fields. Contrary to all previous results, the 5/2 resistance minimum and the Hall plateau are found to strengthen continuously under an increasing tilt angle 0 < θ < 25 (corresponding to an in-plane magnetic field 0 < B < 0.8 T). In the same range of θ the activation gaps of both the 7/3 and the 8/3 states are found to increase with tilt. The 5/2 state transforms into a compressible Fermi liquid upon tilt angle θ > 60, and the composite fermion series [2+p/(2p1)], p = 1, 2 can be identified. Based on our results, we discuss the relevance of a Skyrmion spin texture at = 5/2 associated with small Zeeman energy in wide quantum wells, as proposed by W ojs et al., Phys. Rev. Lett. 104, 086801 (2010).