Diamond photonics is an ever-growing field of research driven by the prospects of
harnessing diamond and its colour centres as suitable hardware for solid-state quantum …

Diamond has attracted great interest as a quantum technology platform thanks to its optically
active nitrogen vacancy (NV) center. The NV's ground state spin can be read out optically …

The controlled creation of defect centre—nanocavity systems is one of the outstanding
challenges for efficiently interfacing spin quantum memories with photons for photon-based …

An in situ counted ion implantation experiment improving the error on the number of ions
required to form a single optically active silicon vacancy (SiV) defect in diamond 7-fold …

Diamond color centers have been widely studied in the field of quantum optics. The
negatively charged silicon vacancy (SiV−) center exhibits a narrow emission linewidth at the …

Next-generation dark matter (DM) detectors searching for weakly interacting massive
particles (WIMPs) will be sensitive to coherent scattering from solar neutrinos, demanding an …

The control of the charge state of nitrogen-vacancy (NV) centers in diamond is of primary
importance for the stabilization of their quantum-optical properties, in applications ranging …

Diamond color centers with applications to single photon sources, quantum computation,
and magnetic field sensing down to the nanoscale have been investigated using ensembles …

Electrically active defects have a significant impact on the performance of electronic devices
based on wide-band-gap materials. This issue is ubiquitous in diamond science and …

Abstract The Deep Ion Beam Lithography technique has been extensively adopted in recent
years for the fabrication of graphitic electrodes in bulk diamond with a wide range of …