Abstract
The spin polarization of a fractional quantum Hall state shows very interesting properties. The curve of polarization versus magnetic field has wide plateaus. The fractional quantum Hall effect is caused by the Coulomb interaction because the 2D electron system without the Coulomb interaction yields no energy gap at the fractional filling factor. Therefore, the wide plateau in the polarization curve is also caused by the Coulomb interaction. When the magnetic field is weak, some electrons have up-spins and the others down-spins. Therein the spin-exchange transition occurs between two electrons with up and down spins via the Coulomb interaction. Then the charge distribution before the transition is the same as one after the transition. So these two states have the same classical Coulomb energy. Accordingly, the partial Hamiltonian composed of the spin exchange interaction should be treated exactly. We have succeeded in diagonalizing the spin exchange interaction for the first and second nearest electron pairs. The theoretical results reproduce the wide plateaus very well. If the interval modulations between Landau orbitals are taken into the Hamiltonian, the total energy has the Peierls instability. We can diagonalize the Hamiltonian with the interval modulation. The results reproduce wide plateaus and small shoulders which are in good agreement with the experimental data.
Highlights
As well known, the integer and fractional quantum Hall effects (IQHE and FQHE) appear in a quasi-two dimensional electron system under a strong magnetic field perpendicular to the 2D electron channel the thickness of which is extremely thin [1]-[17]
The ground state along the z-direction of Figure 1 is realized for a low temperature and so we can treat the system as a 2D electron system
The IQHE and FQHE are observed in various materials namely Si, GaAs, graphene and so on
Summary
The integer and fractional quantum Hall effects (IQHE and FQHE) appear in a quasi-two dimensional electron system under a strong magnetic field perpendicular to the 2D electron channel the thickness of which is extremely thin [1]-[17]. In the FQHE the Hall voltage is extremely large compared with the potential voltage They clarified the magnetic field dependence of the polarization under fixing the filling factors. Jain has written the article [28] and compared the composite fermion (CF) theory [29]-[44] with the Haldane-Halaperin (HH) hierarchy theory [45] [46] He summarized the composite fermion theory and showed the theoretical results on the spin-polarization of FQH states. The calculated results show the Peierls instability and the polarization curves are in better agreement with the experimental data than the previous results
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