Chemical vapor deposition single‐crystal diamond: a review
JC Arnault, S Saada… - physica status solidi (RRL) …, 2022 - Wiley Online Library
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 …
future power electronics and quantum devices. The later application field is based on the …
Silicon strip and pixel detectors for particle physics experiments
S Seidel - Physics Reports, 2019 - Elsevier
Following a brief introduction to the roles that a tracking detector fulfills in a particle physics
experiment, the concept of a silicon tracking detector is introduced. The contributors to …
experiment, the concept of a silicon tracking detector is introduced. The contributors to …
Graphite distributed electrodes for diamond-based photon-enhanced thermionic emission solar cells
Graphite conductive vertical microchannels, fabricated by femtosecond laser treatment, are
proposed as distributed electrodes in defect-engineered (“black”) single-crystal diamond …
proposed as distributed electrodes in defect-engineered (“black”) single-crystal diamond …
Laser Engineering Nanocarbon Phases within Diamond for Science and Electronics
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 …
properties that are attractive from a device perspective. Despite diamond displaying high …
Diamond detectors for timing measurements in high energy physics
Timing detectors are a well-established part of High Energy Physics experimental
instrumentation. The choice of sensors with fast (less than 10 ns) and precise (better than …
instrumentation. The choice of sensors with fast (less than 10 ns) and precise (better than …
Growth of highly oriented graphite by ultraviolet nanosecond pulsed laser ablation of monocrystalline diamond
Inducing highly oriented graphite layer as buried conductive media in diamond by laser
ablation is crucial for promoting the electronic functionalities of structured monocrystalline …
ablation is crucial for promoting the electronic functionalities of structured monocrystalline …
Photoionization of monocrystalline CVD diamond irradiated with ultrashort intense laser pulse
S Lagomarsino, S Sciortino, B Obreshkov… - Physical Review B, 2016 - APS
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 …
in radiation detection and clinical dosimetry. Unraveling the microscopic processes involved …
[图书][B] Radiation sensors with 3D electrodes
C Da Vià, GF Dalla Betta, S Parker - 2019 - taylorfrancis.com
Written by the leading names in this field, this book introduces the technical properties,
design and fabrication details, measurement results, and applications of three-dimensional …
design and fabrication details, measurement results, and applications of three-dimensional …
Fabry-perot pressure sensors based on polycrystalline diamond membranes
Pressure sensors based on diamond membranes were designed and tested for gas
pressure measurement up to 6.8 MPa. The diamond film (2” diameter, 6 μm thickness) …
pressure measurement up to 6.8 MPa. The diamond film (2” diameter, 6 μm thickness) …
Investigation of the microstructure change due to phase transition in nanosecond pulsed laser processing of diamond
Experiments and theory are employed to investigate the thermal damage induced by infra-
red nanosecond pulses in atmospheric air into a boron-doped diamond target. Micro-Raman …
red nanosecond pulses in atmospheric air into a boron-doped diamond target. Micro-Raman …