Single artificial atoms in silicon emitting at telecom wavelengths

Alrik Durand; Walid Redjem; Tobias Herzig; Abdennacer Benali; Sebastien Pezzagna; Jan Meijer; Andrej Kuznetsov; Hai Son Nguyen; Sebastien Cueff; Jean-Michel Gerard; Isabelle Robert-Philip; Bernard Gil; Damien Caliste; Pascal Pochet; Marco Abbarchi; Vincent Jacques; Anaïs Dréau; Guillaume Cassabois

Single artificial atoms in silicon emitting at telecom wavelengths

ORAL

Abstract

Given its unrivaled potential of integration and scalability, silicon is likely to become a key platform for large-scale quantum technologies. Individual electron-encoded artificial atoms either formed by impurities or quantum dots have emerged as a promising solution for silicon-based integrated quantum circuits. However, single qubits featuring an optical interface needed for large-distance exchange of information have not yet been isolated in such a prevailing semiconductor. In our recent work [1], we show the isolation of single optically-active point defects in a commercial silicon-on-insulator wafer implanted with carbon atoms. These artificial atoms exhibit a bright, linearly polarized single-photon emission at telecom wavelengths suitable for long-distance propagation in optical fibers. Our results demonstrate that despite its small bandgap (1.1 eV) a priori unfavorable towards such observation, silicon can accommodate point defects optically isolable at single scale, like in wide-bandgap semiconductors. This work opens numerous perspectives for silicon-based quantum technologies, from integrated quantum photonics to quantum communications and metrology.
[1] Redjem*, Durand* et al., arXiv:2001.02136 (2020)

March 17, 2021, 12:18 PM – March 17, 2021, 12:30 PM

Presenters

Alrik Durand
- Laboratoire Charles Coulomb - Montpellier

Authors

Alrik Durand
- Laboratoire Charles Coulomb - Montpellier
Walid Redjem
- Laboratoire Charles Coulomb - Montpellier
Tobias Herzig
- Division of Applied Quantum Systems, Felix-Bloch Institute for Solid-State Physics, University Leipzig
Abdennacer Benali
- IM2NP, Marseille
Sebastien Pezzagna
- Division of Applied Quantum Systems, Felix-Bloch Institute for Solid-State Physics, University Leipzig
Jan Meijer
- Division of Applied Quantum Systems, Felix-Bloch Institute for Solid-State Physics, University Leipzig
Andrej Kuznetsov
- Department of Physics, University of Oslo
Hai Son Nguyen
- Institut des Nanotechnologies de Lyon
Sebastien Cueff
- Institut des Nanotechnologies de Lyon
Jean-Michel Gerard
- Department of Physics, IRIG, CEA
Isabelle Robert-Philip
- Laboratoire Charles Coulomb - Montpellier
Bernard Gil
- Laboratoire Charles Coulomb - Montpellier
Damien Caliste
- Department of Physics, IRIG, CEA
Pascal Pochet
- Physics, University Grenoble Alpes
- Department of Physics, IRIG, CEA
Marco Abbarchi
- IM2NP, Marseille
Vincent Jacques
- Laboratoire Charles Coulomb
- Laboratoire Charles Coulomb - Montpellier
Anaïs Dréau
- Laboratoire Charles Coulomb - Montpellier
Guillaume Cassabois
- Laboratoire Charles Coulomb - Montpellier