Add to ORKGA new type of p-channel CCD constructed on high-resistivity n-type silicon was exposed to 12 MeV protons at doses up to 1x1011 protons/cm2. The charge transfer efficiency was measured as a function of radiation dose and temperature. We previously reported that these CCDs are significantly more tolerant to radiation damage than conventional n-channel devices. In the work reported here, we used pocket pumping techniques and charge transfer efficiency measurements to determine the identity and concentrations of radiation induced traps present in the damaged devices
Future high energy physics experiments will make large use of silicon detectors both for tracking an...
Comparisons have been made of the relative degradation of charge transfer efficiency in n-channel an...
Radiation damage effects are problematic for space-based detectors. Highly energetic particles, pred...
A new type of p-channel CCD constructed on high-resistivity n-type silicon was exposed to 12 MeV pro...
P-channel, backside illuminated silicon CCDs were developed and fabricated on high-resistivity n-typ...
P-channel, backside illuminated silicon CCDs were developed and fabricated on high-resistivity n-ty...
It has been demonstrated that p-channel charge coupled devices (CCDs) are more radiation hard than c...
Charge transfer inefficiency and dark current effects are compared for e2v technologies plc. p-chann...
Magnetic Czochralski (MCz) silicon has recently been investigated for the development of radiation t...
A study on 150@mm epitaxial (EPI) n- and p-type silicon diodes irradiated with neutrons up to 8x10^1...
Abstract Bulk radiation damage to high resistivity n-type silicon detectors was studied with incid...
Bulk radiation damage to high resistivity n-type silicon detectors was studied with incident pi(+) (...
Epitaxial (EPI) silicon has recently been investigated for the development of radiation tolerant det...
In the framework of the CERN-RD50 collaboration, the adoption of p-type substrates has been proposed...
P-channel CCDs have been shown to display improved tolerance to radiation-induced charge transfer in...
Future high energy physics experiments will make large use of silicon detectors both for tracking an...
Comparisons have been made of the relative degradation of charge transfer efficiency in n-channel an...
Radiation damage effects are problematic for space-based detectors. Highly energetic particles, pred...
A new type of p-channel CCD constructed on high-resistivity n-type silicon was exposed to 12 MeV pro...
P-channel, backside illuminated silicon CCDs were developed and fabricated on high-resistivity n-typ...
P-channel, backside illuminated silicon CCDs were developed and fabricated on high-resistivity n-ty...
It has been demonstrated that p-channel charge coupled devices (CCDs) are more radiation hard than c...
Charge transfer inefficiency and dark current effects are compared for e2v technologies plc. p-chann...
Magnetic Czochralski (MCz) silicon has recently been investigated for the development of radiation t...
A study on 150@mm epitaxial (EPI) n- and p-type silicon diodes irradiated with neutrons up to 8x10^1...
Abstract Bulk radiation damage to high resistivity n-type silicon detectors was studied with incid...
Bulk radiation damage to high resistivity n-type silicon detectors was studied with incident pi(+) (...
Epitaxial (EPI) silicon has recently been investigated for the development of radiation tolerant det...
In the framework of the CERN-RD50 collaboration, the adoption of p-type substrates has been proposed...
P-channel CCDs have been shown to display improved tolerance to radiation-induced charge transfer in...
Future high energy physics experiments will make large use of silicon detectors both for tracking an...
Comparisons have been made of the relative degradation of charge transfer efficiency in n-channel an...
Radiation damage effects are problematic for space-based detectors. Highly energetic particles, pred...