... NEMO R&D Activity Site location More than 25 sea campaigns since 1998 NEMO-KM4 80 km off-shore 3500 m depth 80 km NEMO-KM4 NEMO-KM4 Properties High water transparency Data compatible with pure salt ure water properties No seasonal variations Reduced ...
... d u u d u u W + u d u u d u u u u d Z u d u d W M (W ) = 80.419 ± 0.056 W - - e - W e - - W - - W - d u W - c W - b t s 310-25 ... W Q= J= m= mW + ±1e 1 80.419 ± 0.056 - mW - = 0.2 ± 0.6 mZ - mW = 10.76 ± 0.05 = 2.4952 ± 0.0023 N = 19.3 ± 0.4 W e e ...
... according to their cross sectional area e.g.: 0.5 mm thick Ultem1000 mandrel +5 layers 80/135 m fibres: Eeff=13.4 GPa 2 ... number of optic fibre layers, type of optic fibre (80/135 80/165 m) · Effective Young modulus, Poissons' ratio and density 3 ...
... Daya Bay at Daya Bay, China Double Chooz at Chooz, France The RENO Experiment The RENO Experiment 120 m.w.e. Near Detector 0m 29 m80 13 Far Detector 450 m.w.e. The Daya Bay Experiment Measuring neutrino mixing angle 13 6 reactor cores, 17.4 GWth Relative ...
... Mass values were given: m w =(80±5) GeV/ c 2 (UA1) and mw=(80':) GeV/ c2 (UA2). ... mw=(80.5±0.5) GeV/c 2. ii) We can define a transverse mass variable, m;=2p$) p!' (1 ...
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Ссылки http://nuclphys.sinp.msu.ru/experiment/detectors/rubbia-lecture.pdf -- 799.1 Кб -- 01.03.2005 Похожие документы