Refining and testing 12,000 km of scintillating plastic fibre for the LHCb SciFi tracker

The LHCb Collaboration is constructing a large scintillating fibre tracker for a major upgrade of the experiment during the LHC long shutdown LS2 scheduled for 2019–2020. The detector is based on blue emitting Kuraray SCSF-78MJ fibres of 0.25 mm diameter, read out by linear 128-channel Hamamatsu SiP...

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Published in	Journal of instrumentation Vol. 13; no. 10; p. P10025
Main Authors	Cavalcante, A.B.R., Dey, B., Gavardi, L., Gruber, L., Joram, C., Kristic, R., Shinji, O., Zhukov, V.
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 19.10.2018
Subjects	Aging (natural) Attenuation Diameters Large Hadron Collider Oxidation Polystyrene fibers Polystyrene resins Quality assurance Radiation tolerance Scintillating fibers Shutdowns
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Abstract	The LHCb Collaboration is constructing a large scintillating fibre tracker for a major upgrade of the experiment during the LHC long shutdown LS2 scheduled for 2019–2020. The detector is based on blue emitting Kuraray SCSF-78MJ fibres of 0.25 mm diameter, read out by linear 128-channel Hamamatsu SiPM arrays. Over a period of about 2 years the full supply of 12,000 km of fibres underwent a systematic and rigorous quality assurance program, including geometrical refinement to deal with rare punctual imperfections. The measurements comprised attenuation length, ionisation light yield, diameter, cladding integrity and radiation tolerance to X-rays. The supply was found to be timely and of very high quality and stability, which led to negligible rejection rates. A small but systematic degradation of the attenuation length by about 1.4% per year is interpreted as natural aging due to oxidation of the polystyrene fibre core and is subject of further investigations.
AbstractList	The LHCb Collaboration is constructing a large scintillating fibre tracker for a major upgrade of the experiment during the LHC long shutdown LS2 scheduled for 2019–2020. The detector is based on blue emitting Kuraray SCSF-78MJ fibres of 0.25 mm diameter, read out by linear 128-channel Hamamatsu SiPM arrays. Over a period of about 2 years the full supply of 12,000 km of fibres underwent a systematic and rigorous quality assurance program, including geometrical refinement to deal with rare punctual imperfections. The measurements comprised attenuation length, ionisation light yield, diameter, cladding integrity and radiation tolerance to X-rays. The supply was found to be timely and of very high quality and stability, which led to negligible rejection rates. A small but systematic degradation of the attenuation length by about 1.4% per year is interpreted as natural aging due to oxidation of the polystyrene fibre core and is subject of further investigations.
Author	Gruber, L. Joram, C. Dey, B. Zhukov, V. Cavalcante, A.B.R. Kristic, R. Gavardi, L. Shinji, O.
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References	11 13 14 O. Borshchev (4) 2017; 12 15 A.B. Cavalcante . (8) 16 L. Gavardi (12) C. Joram (2) 2015; 10 LHCb collaboration (1) A.B. Cavalcante (10) R. Ekelhof (3) L. Gavardi (7) C. Alfieri (6) C. Alfieri (5) A. Bachlechner . (9)
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SubjectTerms	Aging (natural) Attenuation Diameters Large Hadron Collider Oxidation Polystyrene fibers Polystyrene resins Quality assurance Radiation tolerance Scintillating fibers Shutdowns
Title	Refining and testing 12,000 km of scintillating plastic fibre for the LHCb SciFi tracker
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