S2QT – Solid-State Quantum Technologies

Solid-state Quantum Technologies
at L2C

Our research is currently established at the Laboratoire Charles Coulomb (CNRS and University of Montpellier) within the Physics of excitons, photons and spins axis.

It explores and harnesses the quantum nature of single defects in semiconductor crystals, isolated in bulk and 2D materials. Such solid-state quantum systems provide unprecedented abilities for the emerging quantum technologies, in particular quantum communications by providing scalable optically-active quantum interfaces as well as quantum sensing with unrivaled combination of precision and spatial accuracy.

Latest news

Published in Les reflets de la physique: Le centre coloré NV du diamant : un capteur quantique multifonctionnel

Reflets phys. 81, 17-22 (2025)

June 2025

Our result published in Physical Review X selected as a highlight by the CNRS Institute of Physics: Hopping of the Center-of-Mass of Single G Centers in Silicon-on-Insulator

Link to the CNRS news webpage!

May 2025

Published in Phys. Rev. X: Isotope Substitution and Polytype Control for Point Defects Identification: The Case of the Ultraviolet Color Center in Hexagonal Boron Nitride

Phys. Rev. X 15, 021045 (2025)

May 2025

Published in Nano Lett.: Charge State Tuning of Spin Defects in Hexagonal Boron Nitride

Nano Lett. 25, 14, 5836 (2025)

March 2025

Published in Nature materials: Wafer-scale AA-stacked hexagonal boron nitride grown on a GaN substrate

Nat. Mater. 24, 843–851 (2025)

March 2025

Published in Phys. Rev. X: Hopping of the Center-of-Mass of Single G Centers in Silicon-on-Insulator

Phys. Rev. X 14, 041071 (2024)

December 2024

Join us

Openings are available throughout the year for interns, PhDs and post-doctoral fellows.

To apply and for further information, please contact us.