Using a magnetocapacitance technique, we determine the magnetic field of the spin transition, B*, at filling factor v = 2/3 in the two-dimensional electron system in GaAs/AlGaAs heterojunctions. The field B* is found to decrease appreciably as the wave function extent controlled by back gate voltage is increased. Our calculations show that the contributions to the shift of B* from the change of the Coulomb energy and the g factor change due to nonparabolicity are approximately the same. The observed relative shift of B* is described with no fitting parameters.
Spin transition in the fractional quantum Hall regime: Effect of the extent of the wave function
Sorba L;Biasiol G
2013
Abstract
Using a magnetocapacitance technique, we determine the magnetic field of the spin transition, B*, at filling factor v = 2/3 in the two-dimensional electron system in GaAs/AlGaAs heterojunctions. The field B* is found to decrease appreciably as the wave function extent controlled by back gate voltage is increased. Our calculations show that the contributions to the shift of B* from the change of the Coulomb energy and the g factor change due to nonparabolicity are approximately the same. The observed relative shift of B* is described with no fitting parameters.File in questo prodotto:
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