The charge gap is greater than the neutral gap in fractional quantum Hall systems

TL;DR

This paper proves that in fractional quantum Hall systems, the charge gap universally exceeds the neutral gap under broad conditions, revealing fundamental effects of dipole conservation on many-body physics.

Contribution

It introduces a universal proof that the charge gap is larger than the neutral gap in fractional quantum Hall systems, based on a new gap comparison method.

Findings

Charge gap universally exceeds neutral gap in relevant systems.

The proof applies to both fermionic and bosonic systems.

A new mathematical scheme, the gap comparison method, is developed.

Abstract

Past studies of fractional quantum Hall systems have found that the charge gap dominates the neutral gap for all relevant parameter choices. We report a wide-ranging proof that this domination is in fact a universal property of any Hamiltonian that satisfies a few simple structural properties: translation-invariance, charge conservation, dipole conservation, and a fractionally filled ground state. The result applies to both fermions and bosons. Our main tool is a new mathematical scheme, the gap comparison method, which provides a sequence of inequalities that relate the spectral gaps in successive particle number sectors. Our finding sheds new light on dipole conservation's profound effects on many-body physics.