Publications & results
Find below the major publications produced as part of the AMADEUS project.
NV centres by vacancies trapping in irradiated diamond: experiments and modelling
Citation: S Santonocito et al 2024 New J. Phys. 26 013054
Editor’s Pick on Applied Physics Letters (APL) “Efficient and all-carbon electrical readout of a NV-based Quantum Sensor”
The spin readout of an ensemble of nitrogen-vacancy (NV) centers in diamond can be realized by a photoconductive detection that is a complementary method to the optical detection of the
Magnetic sensitivity enhancement via polarimetric excitation and detection of an ensemble of NV centers
The negatively charged nitrogen-vacancy center (NV) presents remarkable spin-dependent optical properties that make it an interesting tool for magnetic field sensing. In this paper we exploit the polarization properties of
Find here the major press release linked to the AMADEUS project.
Quantum Magnetometer on board EU Space Mission Ariane 6
During its historical launch on July 9th, 2024, the Ariane 6 rocket carried a special device called a diamond-based quantum magnetometer, which was created by imo-imomec students under the OSCAR ESA-funded
One of the objectives of AMADEUS is to prepare the market uptake of NV diamond-based quantum sensors. AMADEUS is an intermediate step between the laboratory demonstrators developed in ASTERIQS and the commercial products to be developed in the final phase of the QT Flagship. AMADEUS will set the ground for a thorough analysis of impact and market potential of NV diamond sensors for various applications.
