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SN 1987A – HISTORICAL VIEW ABOUT REGISTRATION OF THE NEUTRINO SIGNAL WITH

SN 1987A – HISTORICAL VIEW ABOUT REGISTRATION OF THE NEUTRINO SIGNAL WITH. BAKSAN,. KAMIOKANDE-II,. IMB. DETECTORS. I.V. Krivosheina, NIRFI, Nignij-Novgorod, RUSSIA. Heidelberg DARK 2007, Sydney, Australia, 27 September 2007. BAKSAN.

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SN 1987A – HISTORICAL VIEW ABOUT REGISTRATION OF THE NEUTRINO SIGNAL WITH

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  1. SN 1987A – HISTORICAL VIEW ABOUT REGISTRATION OF THE NEUTRINO SIGNAL WITH BAKSAN, KAMIOKANDE-II, IMB DETECTORS I.V. Krivosheina, NIRFI, Nignij-Novgorod, RUSSIA Heidelberg DARK 2007, Sydney, Australia, 27 September 2007

  2. BAKSAN The counting rate of single events of the 1200 detectors in the tree internal planes of the telescope (the target mass is 130t) during the period 1980-2000. The improvement with time is shown (from Zh. Eksp. Teor. Fiz. 95 (2002) 10-16).

  3. The background development of the KAMIOKANDE II detector. It was inmprovedonly after the SN87A signal, by installing isolation structures from the mine air both in the 3000 ton tank and the water-purification system, and kept under control since end of May 1987.

  4. Comparison of trigger efficiencies of all SN87A detectors.

  5. SUPERNOVAE SN 1987 A

  6. n is the average of the background c.r. per second

  7. What kind of criteria should be fulfilled by an experiment searching for supernova explosion? • 1. A ''Supernova'' detector should be able to detect the ν, ν, as well as all types of neutrinos νe, νμ, ντ. • The time distribution of the events (neutrinos-antineutrinos) and perfect absolute time. • 3. The energy of each event. • 4. All detectors must have a 'low' energy threshold (not bigger than 10 MeV). • 5. The detector must be located in a deep underground laboratory, to reduce the background from the muons. • 6. The detector must have a big fiducial mass, to be able to see a neutrino signal from our Galaxy or from the Universe with sufficiently good statistics. • 7. The detector must run permanently and stable before and after a SN signal. ˉ

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