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Salt neutrino detector for ultrahigh-energy neutrinos
Physics of Atomic Nuclei, 2004Rock salt and limestone are studied to determine their suitability for use as a radio-wave transmission medium in an ultrahigh energy (UHE) cosmic neutrino detector. A sensible radio wave would be emitted by the coherent Cherenkov radiation from negative excess charges inside an electromagnetic shower upon interaction of a UHE neutrino in a high ...
M. Chiba +6 more
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AIP Conference Proceedings, 2005
The neutrino physics is one of the most important research field and there are several experiments made and under construction focused on it. This paper will present a review on some detectors used for Solar Neutrinos detection, Atmospheric Neutrinos detection and in Long Baseline Experiments.
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The neutrino physics is one of the most important research field and there are several experiments made and under construction focused on it. This paper will present a review on some detectors used for Solar Neutrinos detection, Atmospheric Neutrinos detection and in Long Baseline Experiments.
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Solar flares and neutrino detectors
Physical Review Letters, 1988Solar flares have been suggested as the cause of occasional high counting rates in the $^{37}\mathrm{Cl}$ solar-neutrino experiment. The sensitivity of neutrino detectors to flares is evaluated. Several neutrino detectors will show large signals when prominent flares are observed electromagnetically, if flares are detected in the chlorine experiment.
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2001
Due to their weak interaction with matter and to the absence of their interaction with the electro-magnetic radiations, neutrinos can travel in the Universe without being absorbed. This is not the case for photons which interact with matter, with the infra-red (IR) radiation and with the cosmic microwave background (CMB).
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Due to their weak interaction with matter and to the absence of their interaction with the electro-magnetic radiations, neutrinos can travel in the Universe without being absorbed. This is not the case for photons which interact with matter, with the infra-red (IR) radiation and with the cosmic microwave background (CMB).
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Fluorine scintillator neutrino detector
Nuclear Physics B - Proceedings Supplements, 19948B solar neutrino detection is proposed via charge current reaction ve + 19F with hexafluorobenzene scintillator detector. Main advantage of the detector is possibility to identify neutrino interaction by means of observation of coincidence with delayed β+-decay of 19Ne (T12 = 17s).
I.R. Barabanov +9 more
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Nuclear Physics B - Proceedings Supplements, 1999
The first stage of the AMANDA High Energy Neutrino Detectorat the South Pole, the 302 PMT array AMANDA-B with an expected effectivearea for TeV neutrinos of similar to 10(4) m(2), has been taking datasince 1997. Progress with calibration, investigation of ice properties,as well as muon and neutrino data analysis are described.
R. Wischnewski +77 more
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The first stage of the AMANDA High Energy Neutrino Detectorat the South Pole, the 302 PMT array AMANDA-B with an expected effectivearea for TeV neutrinos of similar to 10(4) m(2), has been taking datasince 1997. Progress with calibration, investigation of ice properties,as well as muon and neutrino data analysis are described.
R. Wischnewski +77 more
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Liquid argon neutrino detectors
Nuclear Physics B - Proceedings Supplements, 2001Abstract The Liquid Argon imaging technique, as proposed for the ICARUS detector, offers the possibility to perform complementary and simultaneous measurements of neutrinos, as those of CERN to Gran Sasso beam (CNGS) and those from cosmic ray events.
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The Homestake Neutrino Detector
Nuclear Physics B - Proceedings Supplements, 2012Abstract Neutrino mass ordering, mixing, and potential for CP violation are some of the most important questions facing particle physics today. To address them, a Long Baseline Neutrino Experiment (LBNE) is being planned using a 700 kw beam that would be directed from Fermilab to an underground site in Lead, South Dakota – a baseline of 1300 km.
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MINERνA neutrino detector calibration
AIP Conference Proceedings, 2015MINERνA is a neutrino scattering experiment that uses Fermilab’s NuMI beamline. Its goal is to measure cross-sections for neutrino scattering from different nuclei. Precise knowledge of these cross-sections is vital for current and future neutrino oscillation experiments.
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