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Albrecht, E.; van Apeldoorn, G.; Augustinus, A.; Baillon, P.; Battaglia, M.; Bloch, D.; Boudinov, E.; Brunet, J.M.; Carrié, P.; Cavalli, P.; Christophel, E.; Davenport, M.; Dracos, M.; Eklund, L.; Erzen, B.; Fischer, P.A.; Fokitis, E.; Fontanelli, F.; Gracco, V.; Hallgren, A.; Joram, C.; Juillot, P.; Kjaer, N.; Kluit, P.M.; Lenzen, G.; Liko, D.; Mahon, J.R.; Maltezos, S.; Markou, A.; Neufeld, N.; Nielsen, B.S.; Petrolini, A.; Podobnik, T.; Polok, G.; Sajot, G.; Sannino, M.; Schyns, E.; Strub, R.; Tegenfeldt, F.; Thadome, J.; Tristram, G.; Ullaland, O.; van Vulpen, I.
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 1999, Letnik: 433, Številka: 1Journal Article, Conference Proceeding
The Ring Imaging Cherenkov detectors of DELPHI represent a large-scale particle identification system which covers almost the full angular acceptance of DELPHI. The combination of liquid and gas radiators (C 4F 10, C 5F 12, and C 6F 14) provides particle identification over the whole secondary particle momentum spectrum at LEP I and LEP II. Continuing optimisation on the hardware as well as on the online and offline software level have resulted in a stable operation of the complete detector system for more than five years at full physics performance.
