Identifying the topological order of quantized half-filled Landau levels through their daughter states
Abstract
Fractional quantum Hall states at a half-filled Landau level are believed to carry an integer number C of chiral Majorana edge modes, reflected in their thermal Hall conductivity. We show that this number determines the primary series of Abelian fractional quantum Hall states that emerge above and below the half-filling point. On a particular side of half-filling, each series may originate from two consecutive values of C, but the combination of the series above and below half-filling uniquely identifies C. We analyze these states both by a hierarchy approach and by a composite fermion approach. In the latter, we map electrons near a half-filled Landau level to composite fermions at a weak magnetic field and show that a bosonic integer quantum Hall state is formed by pairs of composite fermions and plays a crucial role in the state's Hall conductivity.
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