The use of the 3D detector geometry, where the electrodes go through the bulk of the semiconductor instead of sitting at the surface, allows the life of semiconductor devices to be extended in harsh radiation environments. This geometry also enables the use of less than optimal, material, i.e. with poorer charge collection efficiency. Three different production methods have been investigated: dry etching, laser machining and photoelectrochemical etching. The electrical characteristics of the resulting test devices made in low resistivity silicon and gallium arsenide have been studied. Some of these 3D detectors were characterised after irradiation by 300 MeV/c pions, up to a fluence of 10(14)pi/cm(2) at the Paul Scherrer Institute, Villigen
The radiation hardness of semiconductor detectors for harsh environments, including nuclear, space, ...
Fabrication routes to realising ‘3D ’ detectors in gallium arsenide (GaAs) have been investigated an...
In the past two years, we have developed 3D detector technologies at ITC-irst (Trento, Italy). We ha...
The use of the 3D detector geometry, where the electrodes go through the bulk of the semiconductor i...
This thesis is concerned with the fabrication, characterisation and simulation of 3D semiconductor d...
Various fabrications routes to create '3D' detectors have been investigated and the electrical chara...
A novel type of GaAs radiation detector featuring a 3-D array of electrodes that penetrate through t...
For the unprecedentedly high radiation level at the sLHC, the luminosity upgrade of the LHC, new tra...
Fabrication routes to realising '3D' detectors in gallium arsenide have been investigated and their ...
The 3D silicon radiation detectors are very promising devices to be used in environments requiring e...
For the purpose of withstanding very high radiation doses, silicon pixel sensors with a `3D' electro...
Ever increasing demand for more radiation resistant detectors from experiments such as those at the ...
3D detectors are proposed as an alternative to planar silicon technology to withstand the high radia...
Abstract3D detectors are proposed as an alternative to planar silicon technology to withstand the hi...
Silicon tracking detectors are frequently used in particle collider experiments, as they can provide...
The radiation hardness of semiconductor detectors for harsh environments, including nuclear, space, ...
Fabrication routes to realising ‘3D ’ detectors in gallium arsenide (GaAs) have been investigated an...
In the past two years, we have developed 3D detector technologies at ITC-irst (Trento, Italy). We ha...
The use of the 3D detector geometry, where the electrodes go through the bulk of the semiconductor i...
This thesis is concerned with the fabrication, characterisation and simulation of 3D semiconductor d...
Various fabrications routes to create '3D' detectors have been investigated and the electrical chara...
A novel type of GaAs radiation detector featuring a 3-D array of electrodes that penetrate through t...
For the unprecedentedly high radiation level at the sLHC, the luminosity upgrade of the LHC, new tra...
Fabrication routes to realising '3D' detectors in gallium arsenide have been investigated and their ...
The 3D silicon radiation detectors are very promising devices to be used in environments requiring e...
For the purpose of withstanding very high radiation doses, silicon pixel sensors with a `3D' electro...
Ever increasing demand for more radiation resistant detectors from experiments such as those at the ...
3D detectors are proposed as an alternative to planar silicon technology to withstand the high radia...
Abstract3D detectors are proposed as an alternative to planar silicon technology to withstand the hi...
Silicon tracking detectors are frequently used in particle collider experiments, as they can provide...
The radiation hardness of semiconductor detectors for harsh environments, including nuclear, space, ...
Fabrication routes to realising ‘3D ’ detectors in gallium arsenide (GaAs) have been investigated an...
In the past two years, we have developed 3D detector technologies at ITC-irst (Trento, Italy). We ha...