With its outstanding physical properties, single‐crystal diamond is the material of choice for
future power electronics and quantum devices. The later application field is based on the …

This paper reviews recent progress in diamond radiation detectors. Diamond is an ultra-
wide gap (5.5 eV) semiconducting material which has several ideal properties for radiation …

Three dimensional waveguides within the bulk of diamond are manufactured using ultrafast
laser fabrication. High intensities within the focal volume of the laser cause breakdown of the …

High quality graphitic wires embedded beneath the surface of single crystal diamond are
fabricated using a combination of adaptive ultrashort pulsed laser fabrication, high …

Graphite conductive vertical microchannels, fabricated by femtosecond laser treatment, are
proposed as distributed electrodes in defect-engineered (“black”) single-crystal diamond …

Diamond, as the densest allotrope of carbon, displays a range of exemplary material
properties that are attractive from a device perspective. Despite diamond displaying high …

A novel device using single-crystal chemical vapour deposited diamond and resistive
electrodes in the bulk forming a 3D diamond detector is presented. The electrodes of the …

Diamond is a wide bandgap semiconductor with excellent physical properties which allow it
to operate under extreme conditions. However, the technological use of diamond was mostly …

Pulsed laser writing of graphitic electrodes in diamond is a promising technique for
innovative particle detectors. Although of great relevance in 3D fabrication, the processes …

Direct laser writing of conductive paths in synthetic diamond is of interest for implementation
in radiation detection and clinical dosimetry. Unraveling the microscopic processes involved …