Crystallization of fractional charges in a strongly interacting quasi-helical quantum dot

Abstract

The ground-state electron density of a one-dimensional spin-orbit coupled quantum dot with a Zeeman term and strong electron interaction is studied at the fractional helical liquid points. We show that at fractional filling factors =(2n+1)-1 (with n a non-negative integer) the density oscillates with N0/ peak. For n≥ 1 a number of peaks larger than the number of electrons N0 suggests that a crystal of fractional quasi-particles with charge e (with e the electron charge) occurs. The reported effect is amenable of verification via transport measurements in charged AFM-coupled dot.