Title :
Lithium ion irradiation of standard and oxygenated silicon diodes
Author :
Candelori, Andrea ; Bisello, Dario ; Betta, Gianfranco Dalla ; Giubilato, Piero ; Kaminski, Alexander ; Litovchenko, Alexei ; Lozano, Manuel ; Petrie, Jonathan Raymond ; Rando, Riccardo ; Ullán, Miguel ; Wyss, Jeff
Author_Institution :
Dipt. di Fisica, Univ. di Padova, Italy
Abstract :
The next generation silicon detectors for future very high luminosity colliders or a possible LHC upgrade scenario will require radiation-hard detectors for fluences up to 1016 1-MeV equivalent neutrons/cm2. These high fluences present strong constraints because long irradiation times are required at the currently available proton irradiation facilities. Energetic (58 MeV) Lithium ions present a nonionizing energy loss higher than protons and neutrons, and could consequently be a new promising radiation source for investigating the radiation hardness of silicon detectors up to very high particle fluences. Starting from this premise, we have investigated the degradation, as measured by the leakage current density increase and depletion voltage variations in the short- and long-term characteristics, induced by 58 MeV Li ions in state-of-the-art silicon diodes processed by two different manufacturers on standard and oxygenated silicon substrates. Finally, the correlation between the radiation damage induced by 58 MeV Li ions and 27 MeV protons is discussed.
Keywords :
diodes; energy loss of particles; hardness; ion beam effects; leakage currents; nuclear electronics; proton effects; silicon radiation detectors; LHC upgrade scenario; degradation; depletion voltage variations; high luminosity colliders; irradiation time; leakage current density; lithium ion irradiation; long-term characteristics; neutrons; next generation silicon detector; nonionizing energy loss; oxygenated silicon diodes; particle fluences; proton irradiation facilities; radiation damage; radiation hardness; radiation source; radiation-hard detectors; short-term characteristics; standard silicon substrate; state-of-the-art silicon diodes; Degradation; Density measurement; Diodes; Energy loss; Large Hadron Collider; Lithium; Neutrons; Protons; Radiation detectors; Silicon radiation detectors; Diodes; ion radiation effects; radiation detectors;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2004.835064
