Anomalous quantum Hall effect on sphere
Copyright policy )Anomalous quantum Hall effect on sphere
We study the anomalous quantum Hall effect exhibited by the relativistic particles living on two-sphere S^2 and submitted to a magnetic monopole. We start by establishing a direct connection between the Dirac and Landau operators through the Pauli--Schrödinger Hamiltonian H_{s}^{SP}. This will be helpful in the sense that the Dirac eigenvalues and eigenfunctions will be easily derived. In analyzing H_{s}^{SP} spectrum, we show that there is a composite fermion nature supported by the presence of two effective magnetic fields. For the lowest Landau level, we argue that the basic physics of graphene is similar to that of two-dimensional electron gas, which is in agreement with the planar limit. For the higher Landau levels, we propose a SU(N) wavefunction for different filling factors that captures all symmetries. Focusing on the graphene case, i.e. N=4, we give different configurations those allowed to recover some known results.
23 pages, clarifications, references added, misprints corrected. Version to appear in NPB
High Energy Physics - Theory, Landau operator, Pauli-Schrödinger Hamiltonian, Condensed Matter - Mesoscale and Nanoscale Physics, Dirac operator, graphene, FOS: Physical sciences, Mathematical Physics (math-ph), High Energy Physics - Theory (hep-th), Many-body theory; quantum Hall effect, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Quantum mechanics on special spaces: manifolds, fractals, graphs, lattices, Mathematical Physics, Selfadjoint operator theory in quantum theory, including spectral analysis
High Energy Physics - Theory, Landau operator, Pauli-Schrödinger Hamiltonian, Condensed Matter - Mesoscale and Nanoscale Physics, Dirac operator, graphene, FOS: Physical sciences, Mathematical Physics (math-ph), High Energy Physics - Theory (hep-th), Many-body theory; quantum Hall effect, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Quantum mechanics on special spaces: manifolds, fractals, graphs, lattices, Mathematical Physics, Selfadjoint operator theory in quantum theory, including spectral analysis
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