Add to ORKGCharged particle detectors made from chemical vapor deposition (CVD) diamond have radiation hardness greatly exceeding that of silicon- based detectors. The CERN-based RD42 Collaboration has developed and tested CVD diamond microstrip and pixel detectors with an eye to their application in the intense radiation environment near the interaction region of hadron colliders. This paper presents recent results from tests of these detectors. (4 refs)
International audienceDetectors based on Chemical Vapor Deposition (CVD) diamond have been used succ...
International audienceDetectors based on Chemical Vapor Deposition (CVD) diamond have been used succ...
International audienceWe present an overview of the latest developments from RD42 in diamond detecto...
The inherent properties of diamond make it an ideal material for detectors in the high rate, high ra...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
Chemical Vapor Deposited (CVD) polycrystalline diamond has been proposed as a radiation-hard alterna...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
Diamond is a nearly ideal material for detecting ionizing radiation. Its promising radiation hardnes...
Chemical Vapor Deposited (CVD) polycrystalline diamond has been proposed as a radiation-hard alterna...
Chemical Vapor Deposition (CVD) diamond particle detectors have been developed as a radiation tolera...
The inherent properties of diamond are well suited for use in tracking detectors, especially in the ...
Diamond, as the hardest material known, has an extremely high binding energy suggesting that it will...
We present an overview of the latest developments from RD42 in diamond detector R&D.; They include t...
International audienceDetectors based on Chemical Vapor Deposition (CVD) diamond have been used succ...
International audienceDetectors based on Chemical Vapor Deposition (CVD) diamond have been used succ...
International audienceWe present an overview of the latest developments from RD42 in diamond detecto...
The inherent properties of diamond make it an ideal material for detectors in the high rate, high ra...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
Chemical Vapor Deposited (CVD) polycrystalline diamond has been proposed as a radiation-hard alterna...
In future HEP accelerators, such as the LHC (CERN), detectors and electronics in the vertex region o...
Diamond is a nearly ideal material for detecting ionizing radiation. Its promising radiation hardnes...
Chemical Vapor Deposited (CVD) polycrystalline diamond has been proposed as a radiation-hard alterna...
Chemical Vapor Deposition (CVD) diamond particle detectors have been developed as a radiation tolera...
The inherent properties of diamond are well suited for use in tracking detectors, especially in the ...
Diamond, as the hardest material known, has an extremely high binding energy suggesting that it will...
We present an overview of the latest developments from RD42 in diamond detector R&D.; They include t...
International audienceDetectors based on Chemical Vapor Deposition (CVD) diamond have been used succ...
International audienceDetectors based on Chemical Vapor Deposition (CVD) diamond have been used succ...
International audienceWe present an overview of the latest developments from RD42 in diamond detecto...