The 3D silicon radiation detectors are very promising devices to be used in environments requiring extreme radiation hardness, such as the super-LHC experiment at CERN. A drawback of this detector is the very long and non-standard fabrication process, which makes the mass production of these devices very critical. A possible simplification of the manufacturing process relies on a new type of 3D architecture, called 3D-single-type-column detector, that we have introduced in previous works. In this paper we report on the fabrication process of the first batch of detectors and on selected results from the electrical characterization of 3D test structures, covering leakage current, capacitance and breakdown voltage measurements
We present a new 3D detector architecture aimed at simplifying the manufacturing process making it m...
For the unprecedentedly high radiation level at the sLHC, the luminosity upgrade of the LHC, new tra...
The upgrades of High Energy Physics (HEP) experiments at the Large Hadron Collider (LHC) will call f...
The 3D silicon radiation detectors are very promising devices to be used in environments requiring e...
The work presented here is the result of the collaborative effort between the University of Glasgow,...
The fabrication of 3D detectors which requires bulk micromachining of columnar electrodes has been r...
3D detectors are photodiode radiation detectors with n- and p-type electrode columns passing through...
Recently, we presented a new 3D detector architecture aimed at simplifying the manufacturing process...
Since the 3D-Open-Shell-Electrode Detector (3DOSED) is proposed and the structure is optimized, it i...
Various fabrications routes to create '3D' detectors have been investigated and the electrical chara...
New results on the semi three-dimensional (3D) silicon radiation pixel detectors are reported. In pa...
The paper describes the first results on the behavior of semi three dimensional (3D) silicon radiati...
In the past two years 3D silicon radiation detectors have been developed at Fondazione Bruno Kessler...
3D silicon radiation detectors offer many advantages over planar detectors, including improved radia...
We report on the latest results from the development of 3D silicon radiation detectors at IRST (Tren...
We present a new 3D detector architecture aimed at simplifying the manufacturing process making it m...
For the unprecedentedly high radiation level at the sLHC, the luminosity upgrade of the LHC, new tra...
The upgrades of High Energy Physics (HEP) experiments at the Large Hadron Collider (LHC) will call f...
The 3D silicon radiation detectors are very promising devices to be used in environments requiring e...
The work presented here is the result of the collaborative effort between the University of Glasgow,...
The fabrication of 3D detectors which requires bulk micromachining of columnar electrodes has been r...
3D detectors are photodiode radiation detectors with n- and p-type electrode columns passing through...
Recently, we presented a new 3D detector architecture aimed at simplifying the manufacturing process...
Since the 3D-Open-Shell-Electrode Detector (3DOSED) is proposed and the structure is optimized, it i...
Various fabrications routes to create '3D' detectors have been investigated and the electrical chara...
New results on the semi three-dimensional (3D) silicon radiation pixel detectors are reported. In pa...
The paper describes the first results on the behavior of semi three dimensional (3D) silicon radiati...
In the past two years 3D silicon radiation detectors have been developed at Fondazione Bruno Kessler...
3D silicon radiation detectors offer many advantages over planar detectors, including improved radia...
We report on the latest results from the development of 3D silicon radiation detectors at IRST (Tren...
We present a new 3D detector architecture aimed at simplifying the manufacturing process making it m...
For the unprecedentedly high radiation level at the sLHC, the luminosity upgrade of the LHC, new tra...
The upgrades of High Energy Physics (HEP) experiments at the Large Hadron Collider (LHC) will call f...