STRUCTURING THE SET OF INCOMPRESSIBLE QUANTUM HALL FLUIDS

Abstract

A classification of incompressible quantum Hall fluids in terms of integral lattices and arithmetical invariants thereof is proposed. This classification enables us to characterize the plateau values of the Hall conductivity in the interval \,(0,1]\, (in units where \,e2/h=1) corresponding to ``stable'' incompressible quantum Hall fluids. A bijection, called shift map, between classes of stable incompressible quantum Hall fluids corresponding to plateaux of in the intervals \,[1/(2 p+1),1/(2 p-1))\, and \,[1/(2 q+1),1/(2 q-1)), respectively, is constructed, with \,p,q=1,2,3, (…),\ p≠ q. Our theoretical results are carefully compared to experimental data, and various predictions and experimental implications of our theory are discussed.

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