000445016 001__ 445016
000445016 003__ SzGeCERN
000445016 005__ 20160630060857.0
000445016 0247_ $$2DOI$$a10.1016/S0168-9002(99)01275-9
000445016 0248_ $$aoai:cds.cern.ch:445016$$pcerncds:CERN
000445016 030__ $$aNucl. Instrum. Methods Phys. Res., A
000445016 035__ $$9INSPEC$$a6625582
000445016 035__ $$9Inspire$$a530609
000445016 041__ $$aeng
000445016 100__ $$aMahout, G
000445016 245__ $$aIrradiation studies of multimode optical fibres for use in ATLAS front-end links
000445016 260__ $$c2000
000445016 520__ $$aThe radiation tolerance of three multimode optical fibres has been investigated to establish their suitability for the use in the front- end data links of the ATLAS experiment. Both gamma and neutron irradiation studies are reported. A step-index fibre with a pure silica core showed an induced attenuation of ~0.05 dB/m at 330 kGy (Si) and 1*10/sup 15/ n(1 MeV Si)/cm/sup 2/ and is suitable for use with the inner detector links which operate at 40-80 Mb/s. A graded- index fibre with a predominantly germanium-doped core exhibits an induced attenuation of ~0.1 dB/m at 800 Gy(Si) and 2*10/sup 13/ n(1 MeV Si)/cm/sup 2/ and is suitable for the calorimeter links which operate at 1.6 Gb/s. Measurements of the dose rate dependence of the induced attenuation indicate that the attenuation in ATLAS will be lower. (30 refs).
000445016 595__ $$aSIS INSP2000
000445016 595__ $$i6625582
000445016 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
000445016 690C_ $$aARTICLE
000445016 690C_ $$aCERN
000445016 693__ $$aCERN LHC$$eATLAS
000445016 694__ $$9INSPEC$$aA4281D (Optical propagation, dispersion and attenuation in fibres)
000445016 694__ $$9INSPEC$$aA6180E (Gamma ray effects)
000445016 694__ $$9INSPEC$$aA6180H (Neutron effects)
000445016 694__ $$9INSPEC$$aA2970G (Energy loss and energy range relations in radiation measurement)
000445016 694__ $$9INSPEC$$aB4125 (Fibre optics)
000445016 694__ $$9INSPEC$$aB6260C (Optical communication equipment)
000445016 694__ $$9INSPEC$$aB7420 (Particle and radiation detection and measurement)
000445016 694__ $$9INSPEC$$aCI SiO2 bin, O2 bin, Si bin, O bin; SiO2:Ge ss, SiO2 ss, Ge ss, O2 ss, Si ss, O ss, SiO2 bin, O2 bin, Si bin, O bin, Ge el, Ge dop
000445016 694__ $$9INSPEC$$aNI bit rate: 1
000445016 695__ $$9INSPEC$$agamma-ray-effects
000445016 695__ $$9INSPEC$$alight-absorption
000445016 695__ $$9INSPEC$$aneutron-effects
000445016 695__ $$9INSPEC$$aoptical-fibre-communication
000445016 695__ $$9INSPEC$$aoptical-fibre-losses
000445016 695__ $$9INSPEC$$aparticle-calorimetry
000445016 700__ $$aPearce, M
000445016 700__ $$aAndrieux, M L
000445016 700__ $$aArvidsson, C B
000445016 700__ $$aCharlton, D G
000445016 700__ $$aDinkespiler, B
000445016 700__ $$aDowell, John D
000445016 700__ $$aGallin-Martel, L
000445016 700__ $$aHomer, R James
000445016 700__ $$aJovanovic, P
000445016 700__ $$aKenyon, Ian Richard
000445016 700__ $$aKuyt, G
000445016 700__ $$aLundqvist, J M
000445016 700__ $$aMandic, I
000445016 700__ $$aMartin, O
000445016 700__ $$aShaylor, H R
000445016 700__ $$aStroynowski, R
000445016 700__ $$aTroska, Jan K$$uImperial Coll., London
000445016 700__ $$aWastie, R L
000445016 700__ $$0AUTHOR|(CDS)2108730$$9#BEARD#$$aWeidberg, A R
000445016 700__ $$aWilson, J A
000445016 700__ $$0AUTHOR|(CDS)2069179$$9#BEARD#$$aYe, J
000445016 710__ $$5EP
000445016 773__ $$c426-34$$n3$$pNucl. Instrum. Methods Phys. Res., A$$v446$$y2000
000445016 901__ $$uSch of Phys & Astron, Birmingham Univ
000445016 916__ $$sh$$w200052$$ya2000
000445016 960__ $$a13
000445016 961__ $$c20100305$$h2001$$lCER01$$x20000627
000445016 963__ $$aPUBLIC
000445016 970__ $$a002195715CER
000445016 980__ $$aARTICLE