High-resistivity p-type silicon has emerged as one of the most promising materials for the finely segmented detectors to be used in particle physics experiments where high levels of radiation damage are expected. Beside the standard high-purity float-zone (FZ) silicon, relatively high-resistivity magnetic Czocharlski (MCz) is now available from industry. This material has been proposed as possibly more radiation hard than the standard FZ. This work shows a comparison of these substrate materials in terms of charge collection efficiency measurements performed with 40 MHz analogue electronics, before and after irradiation
The results of the pre- and post-irradiation characterization of n- and p-type magnetic Czochralski ...
Abstract The charge collected from beta source particles in single pad detectors produced on p-typ...
In the framework of the CERN-RD50 Collaboration, the adoption of p-type substrates has been proposed...
Magnetic Czochralski (MCz) silicon has recently become a promising material for the development of r...
This thesis describes the characterization of irradiated and non-irradiated segmenteddetectors made ...
We have processed pin-diodes and strip detectors on n- and p-type high-resistivity silicon wafers gr...
Tracking detectors for future high-luminosity particle physics experiments have to be simultaneously...
We report on the processing and characterization of microstrip sensors and pad detectors produced on...
We report on the design, manufacturing and first characterisation of pad diodes, test structures and...
Tracker systems based on silicon detectors are one of the possible choices for experiments at the fu...
The aim of this work is the development of radiation hard detectors for very high luminosity collide...
Silicon microstrip detectors with n-type implant read-out strips on FZ p-type bulk (n-in-p) show sup...
Magnetic Czochralski (MCz) silicon has recently been investigated for the development of radiation t...
This thesis describes the characterization of irradiated and non-irradiated segmented detectors made...
Pad and strip detectors processed on high resistivity n-type magnetic Czochralski silicon (MCz-Si) w...
The results of the pre- and post-irradiation characterization of n- and p-type magnetic Czochralski ...
Abstract The charge collected from beta source particles in single pad detectors produced on p-typ...
In the framework of the CERN-RD50 Collaboration, the adoption of p-type substrates has been proposed...
Magnetic Czochralski (MCz) silicon has recently become a promising material for the development of r...
This thesis describes the characterization of irradiated and non-irradiated segmenteddetectors made ...
We have processed pin-diodes and strip detectors on n- and p-type high-resistivity silicon wafers gr...
Tracking detectors for future high-luminosity particle physics experiments have to be simultaneously...
We report on the processing and characterization of microstrip sensors and pad detectors produced on...
We report on the design, manufacturing and first characterisation of pad diodes, test structures and...
Tracker systems based on silicon detectors are one of the possible choices for experiments at the fu...
The aim of this work is the development of radiation hard detectors for very high luminosity collide...
Silicon microstrip detectors with n-type implant read-out strips on FZ p-type bulk (n-in-p) show sup...
Magnetic Czochralski (MCz) silicon has recently been investigated for the development of radiation t...
This thesis describes the characterization of irradiated and non-irradiated segmented detectors made...
Pad and strip detectors processed on high resistivity n-type magnetic Czochralski silicon (MCz-Si) w...
The results of the pre- and post-irradiation characterization of n- and p-type magnetic Czochralski ...
Abstract The charge collected from beta source particles in single pad detectors produced on p-typ...
In the framework of the CERN-RD50 Collaboration, the adoption of p-type substrates has been proposed...