Add to ORKGResults of irradiation of thin Chemical Vapor Deposition (CVD) diamond detectors with low energy: p,α and 7Li beams are presented. Energy resolution: ΔE/E<1% of a single crystal detector was achieved. A coincident measurement with two diamond detectors showed time resolution of 100 ps and efficiency above 70%. Despite a high beam flux reaching 109 particles/s cm2 the tested detectors showed low dead-time and satisfactory radiation hardness. Perspectives of applying thin CVD diamond detectors in monitoring of a slowed down radioactive beam (RIB) are discussed.Spanish Ministry of Education and Science (MEC) FFPA2003-05958 and PA-2005-0446
14 pages, 9 figuresInternational audienceIn the context of online ion range verification in particle...
International audienceThe radiation tolerance of chemical vapor deposition (CVD) diamond against dif...
International audienceThe MoniDiam project is part of the French national collaboration CLaRyS (Cont...
En 1999, the accelerator facility at GSI is scheduled to deliver beam intensities of about $10^{10}$...
The state of the art of Chemical Vapor Deposition (CVD) diamond detector technology is reviewed and ...
International audienceThe MoniDiam project of the LPSC laboratory is part of the French national col...
The MoniDiam project is part of the French national collaboration CLaRyS (Contrôle en Ligne de l’hAd...
Diamond was studied as a possible radiation hard technology for use in future high radiation environ...
Using the advantage of the high spatial resolution of the Ruder Boškovic Institute (RBI) ion micropr...
The application of CVD diamonds as radiation-hard particle detectors with outstanding properties for...
International audienceThe French national collaboration CLaRyS aims at the on-line monitoring of had...
International audienceDiamond is a material in use at many nuclear and high energy facilities due to...
14 pages, 9 figuresInternational audienceIn the context of online ion range verification in particle...
International audienceThe radiation tolerance of chemical vapor deposition (CVD) diamond against dif...
International audienceThe MoniDiam project is part of the French national collaboration CLaRyS (Cont...
En 1999, the accelerator facility at GSI is scheduled to deliver beam intensities of about $10^{10}$...
The state of the art of Chemical Vapor Deposition (CVD) diamond detector technology is reviewed and ...
International audienceThe MoniDiam project of the LPSC laboratory is part of the French national col...
The MoniDiam project is part of the French national collaboration CLaRyS (Contrôle en Ligne de l’hAd...
Diamond was studied as a possible radiation hard technology for use in future high radiation environ...
Using the advantage of the high spatial resolution of the Ruder Boškovic Institute (RBI) ion micropr...
The application of CVD diamonds as radiation-hard particle detectors with outstanding properties for...
International audienceThe French national collaboration CLaRyS aims at the on-line monitoring of had...
International audienceDiamond is a material in use at many nuclear and high energy facilities due to...
14 pages, 9 figuresInternational audienceIn the context of online ion range verification in particle...
International audienceThe radiation tolerance of chemical vapor deposition (CVD) diamond against dif...
International audienceThe MoniDiam project is part of the French national collaboration CLaRyS (Cont...