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, 1:18 PM – March 17, 2021, 1:30 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