✦ LIBER ✦

Study of phenylxylylethane (PXE) as scintillator for low energy neutrino experiments

✍ Scribed by H.O. Back; M. Balata; A. de Bari; T. Beau; A. de Bellefon; G. Bellini; J. Benziger; S. Bonetti; A. Brigatti; C. Buck; B. Caccianiga; L. Cadonati; F. Calaprice; G. Cecchet; M. Chen; A. Di Credico; O. Dadoun; D. D’Angelo; A. Derbin; M. Deutsch; F. Elisei; A. Etenko; F. von Feilitzsch; R. Fernholz; R. Ford; D. Franco; B. Freudiger; C. Galbiati; F. Gatti; S. Gazzana; M.G. Giammarchi; D. Giugni; M. Göger-Neff; A. Goretti; C. Grieb; E. de Haas; C. Hagner; W. Hampel; E. Harding; F.X. Hartmann; T. Hertrich; H. Hess; G. Heusser; A. Ianni; A.M. Ianni; H. de Kerret; J. Kiko; T. Kirsten; G. Korga; G. Korschinek; Y. Kozlov; D. Kryn; M. Laubenstein; C. Lendvai; F. Loeser; P. Lombardi; S. Malvezzi; J. Maneira; I. Manno; D. Manuzio; G. Manuzio; F. Masetti; A. Martemianov; U. Mazzucato; K. McCarty; E. Meroni; L. Miramonti; M.E. Monzani; P. Musico; L. Niedermeier; L. Oberauer; M. Obolensky; F. Ortica; M. Pallavicini; L. Papp; S. Parmeggiano; L. Perasso; A. Pocar; R.S. Raghavan; G. Ranucci; W. Rau; A. Razeto; E. Resconi; A. Sabelnikov; C. Salvo; R. Scardaoni; D. Schimizzi; S. Schönert; K.H. Schuhbeck; E. Seitz; H. Simgen; T. Shutt; M. Skorokhvatov; O. Smirnov; A. Sonnenschein; A. Sotnikov; S. Sukhotin; V. Tarasenkov; R. Tartaglia; G. Testera; D. Vignaud; R.B. Vogelaar; V. Vyrodov; M. Wojcik; O. Zaimidoroga; G. Zuzel

Publisher: Elsevier Science
Year: 2008
Tongue: English
Weight: 429 KB
Volume: 585
Category: Article
ISSN: 0168-9002
DOI: 10.1016/j.nima.2007.10.045

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✦ Synopsis

We report on the study of a new liquid scintillator target for neutrino interactions in the framework of the research and development program of the Borexino solar neutrino experiment. The scintillator consists of 1,2-dimethyl-4-(1-phenylethyl)-benzene (phenylo-xylylethane, PXE) as solvent and 1,4-diphenylbenzene (para-Terphenyl, p-Tp) as primary and 1,4-bis(2-methylstyryl)benzene (bis-MSB) as secondary solute. The density close to that of water and the high flash point makes it an attractive option for large scintillation detectors in general. The study focused on optical properties, radioactive trace impurities and novel purification techniques of the scintillator. Attenuation lengths of the scintillator mixture of 12 m at 430 nm were achieved after purification with an alumina column. A radiocarbon isotopic ratio of 14 C= 12 C ¼ 9:1 Â 10 À18 has been measured in the scintillator. Initial trace impurities, e.g. 238 U at 3:2 Â 10 À14 g=g could be purified to levels below 1 Â 10 À17 g=g by silica gel solid column purification.

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