Pair density wave in the fractional quantum Hall effect at even denominator

Abstract

The fractional quantum Hall effect (FQHE) at filling 5/2, which is usually understood as a p-wave paired state of underlying quasiparticles - composite fermions, transforms into a nematic phase under pressure csathy0, csathy. A pair density wave (PDW) may be a precursor, underlying state for this behaviour, and such state(s) were proposed that maintain the weak-pairing feature of the uniform paired state frad. Based on considerations in the weak-coupling regime of a microscopic description of the pairing phase (to mimic the phase as it gives way to a nematic phase in the experiments), we argue that the ensuing and relevant PDW state has a strong-pairing character. Furthermore, due to the existence of a single collective mode associated with the order parameter in the uniform paired phase, in the weak-coupling regime, the p-wave paired state, in general (for example, in the superconducting state of electrons), may be prone to a PDW instability.

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