QUANTIC

The Quantic team is conducting research aimed at developing photonic and quantum devices. These include :

  • Integrated photonic circuits based on III-N semiconductors, with the aim of developing circuits that incorporate integrated, tunable laser or quantum sources (single photons and entangled photon pairs).
  • Single-photon sources fabricated using AlGaInN quantum dots operating at room temperature and coupled to photonic structures; arrays of single-photon sources fabricated in atomic monolayers (hBN, TMD) to demonstrate collective effects in quantum photonics.
  • photonic microcavities made of ZnO or GaN for “polariton-based” information processing. In particular, the goal is to develop circuits based on continuous-wave or pulsed polariton lasers, with electrical injection, that operate at room temperature.
  • quantum simulators using two-dimensional exciton fluids to demonstrate quantum states of matter such as super-solids and superconductors.
  • superconducting junctions based on epitaxial NbN for single-photon detection, and the fabrication of Josephson junctions.

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