The three-dimensional concept in particle detection is based on the fabrication of columnar electrodes perpendicular to the surface of a solid state radiation sensor. It permits to improve the radiation resistance characteristics of a material by lowering the necessary bias voltage and shortening the charge carrier path inside the material. If applied to a long-recognized exceptionally radiation-hard material like diamond, this concept promises to pave the way to the realization of detectors of unprecedented performances. We fabricated conventional and three-dimensional polycrystalline diamond detectors, and tested them before and after neutron damage up to 1.2 ×1016 cm−2, 1 MeV-equivalent neutron fluence. We found that the signal collected by the three-dimensional detectors is up to three times higher than that of the conventional planar ones, at the highest neutron damage ever experimented.
Radiation hardness of three-dimensional polycrystalline diamond detectors / Lagomarsino, Stefano; Bellini, Marco; Corsi, Chiara; Cindro, Vladimir; Kanxheri, Keida; Morozzi, Arianna; Passeri, Daniele; Servoli, Leonello; Schmidt, Christian J.; Sciortino, Silvio. - In: APPLIED PHYSICS LETTERS. - ISSN 0003-6951. - STAMPA. - 106:(2015), pp. 1935091-1935095. [10.1063/1.4921116]
Radiation hardness of three-dimensional polycrystalline diamond detectors
LAGOMARSINO, STEFANO;CORSI, CHIARA;SCIORTINO, SILVIO
2015
Abstract
The three-dimensional concept in particle detection is based on the fabrication of columnar electrodes perpendicular to the surface of a solid state radiation sensor. It permits to improve the radiation resistance characteristics of a material by lowering the necessary bias voltage and shortening the charge carrier path inside the material. If applied to a long-recognized exceptionally radiation-hard material like diamond, this concept promises to pave the way to the realization of detectors of unprecedented performances. We fabricated conventional and three-dimensional polycrystalline diamond detectors, and tested them before and after neutron damage up to 1.2 ×1016 cm−2, 1 MeV-equivalent neutron fluence. We found that the signal collected by the three-dimensional detectors is up to three times higher than that of the conventional planar ones, at the highest neutron damage ever experimented.File | Dimensione | Formato | |
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