Add to ORKGThe behavior of artificially grown CVD diamond films under intense electromagnetic radiation has been studied. The properties of irradiated diamond samples have been investigated using the method of thermally stimulated current and by studying their charge collection properties. Diamonds have been found to remain unaffected after doses of 6.8 MGy of 10 keV photons and 10 MGy of MeV-range photons. This observation makes diamond an attractive detector material for a calorimeter in the very forward region of the proposed TESLA detector. (orig.)Available from TIB Hannover: RA 2999(01-117) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekSIGLEDEGerman
International audienceDiamond is used as detector material in high energy physics experiments due to...
Diamond, as a wide band-gap semiconductor material, has the potential to be exploited under a wide r...
Diamond is a nearly ideal material for detecting ionizing radiation. Its promising radiation hardnes...
The behavior of artificially grown CVD diamond films under intense electromagnetic radiation has bee...
Due to its ultra-wide bandgap, diamond is a material that offers a unique combination of excellent e...
Diamonds have attaractive properties for use as radiation deteocotrs. Recent advances in diamond fab...
This paper reviews recent progress in diamond radiation detectors. Diamond is an ultra-wide gap (5.5...
This report surveys the detector properties of CVD-diamond samples and CVD-diamond strip detectors w...
The inherent properties of diamond are well suited for use in tracking detectors, especially in the ...
The emergence over the past decade of new techniques for the synthesis of high quality diamond films...
Diamond, as the hardest material known, has an extremely high binding energy suggesting that it will...
Nearly ideal for detecting ionizing radiation, wide bandgap semiconductors present a possibility of ...
At the end of the next decade an upgrade of the Large Hadron Collider (LHC) to High Luminosity LHC (...
The detector properties and carrier dynamics of type IIa diamonds are reasonably well understood. Th...
Due to its close tissue-equivalence, high radiation sensitivity, dose and dose-rate linearity, diamo...
International audienceDiamond is used as detector material in high energy physics experiments due to...
Diamond, as a wide band-gap semiconductor material, has the potential to be exploited under a wide r...
Diamond is a nearly ideal material for detecting ionizing radiation. Its promising radiation hardnes...
The behavior of artificially grown CVD diamond films under intense electromagnetic radiation has bee...
Due to its ultra-wide bandgap, diamond is a material that offers a unique combination of excellent e...
Diamonds have attaractive properties for use as radiation deteocotrs. Recent advances in diamond fab...
This paper reviews recent progress in diamond radiation detectors. Diamond is an ultra-wide gap (5.5...
This report surveys the detector properties of CVD-diamond samples and CVD-diamond strip detectors w...
The inherent properties of diamond are well suited for use in tracking detectors, especially in the ...
The emergence over the past decade of new techniques for the synthesis of high quality diamond films...
Diamond, as the hardest material known, has an extremely high binding energy suggesting that it will...
Nearly ideal for detecting ionizing radiation, wide bandgap semiconductors present a possibility of ...
At the end of the next decade an upgrade of the Large Hadron Collider (LHC) to High Luminosity LHC (...
The detector properties and carrier dynamics of type IIa diamonds are reasonably well understood. Th...
Due to its close tissue-equivalence, high radiation sensitivity, dose and dose-rate linearity, diamo...
International audienceDiamond is used as detector material in high energy physics experiments due to...
Diamond, as a wide band-gap semiconductor material, has the potential to be exploited under a wide r...
Diamond is a nearly ideal material for detecting ionizing radiation. Its promising radiation hardnes...