Ultra-small Mode Volume Polariton Condensation via Precision He+ Ion Implantation

Abstract

We present a novel method for generating potential landscapes in GaAs microcavities through focused He+ implantation. The ion beam imprints micron-scale patterns of non-radiative centers that deplete the exciton reservoir and form a loss-defined potential minimum. Under non-resonant pumping, the resulting traps have a lateral size 1.2 ~μ m and a three-dimensional mode volume of only ≈ 0.6 ~ μ m3, small enough to to support a single polariton condensate mode. The implantation process maintains strong coupling and provides lithographic ( < 300 ~ nm) resolution. These loss-engineered traps effectively overcome the micrometer-scale limitations of conventional microcavity patterning techniques, opening new avenues for device development and polariton research within the quantum regime.