NOνA Proposal to Build a 30 Kiloton Off-Axis Detector to Study Neutrino Oscillations in the Fermilab NuMI Beamline arXiv:hep-ex/0503053
bbc.co.uk
news.bbc.co.uk
Dr David Whitehouse, BBC News Online science editor (15 July 2003). “Icebound telescope probes the Universe”. BBC News. http://news.bbc.co.uk/2/hi/science/nature/3068359.stm2011年6月16日閲覧. "Sensors in the ice have detected the rare and fleeting flashes of light caused when neutrinos interact with the ice. ... Amanda 2 (Antarctic Muon and Neutrino Detector Array - 2) is designed to look not up, but down, through the Earth to the sky of the Northern Hemisphere."
Dr David Whitehouse, BBC News Online science editor (22 April 2002). “Experiment confirms Sun theories”. BBC News. http://news.bbc.co.uk/2/hi/science/nature/1943837.stm2011年6月16日閲覧. "New evidence confirms last year's indication that one type of neutrino emerging from the Sun's core does switch to another type en route to the Earth. ... The data were obtained from the underground Sudbury Neutrino Observatory (SNO) in Canada. ... Neutrinos are ghostly particles with no electric charge and very little mass. They are known to exist in three types related to three different charged particles - the electron and its lesser-known relatives, the muon and the tau. ..."
economist.com
m.economist.com
J.P. (Dec 1, 2010). “Hang on, that's not a neutrino”. The Economist. http://m.economist.com/babbage-tech-21013466.php2011年6月16日閲覧. "The largest, IceCube, sits deep underneath the South Pole in a cubic kilometre of perfectly clear, bubble-free ancient ice and is set to start working in earnest early next year. All rely on detecting the flickers of light emitted on the exceedingly rare occasions when a neutrino does interact with an atom of ice or water."
Ian Sample (23 January 2011). “The hunt for neutrinos in the Antarctic”. The Guardian. https://www.theguardian.com/science/2011/jan/23/neutrino-cosmic-rays-south-pole2011年6月16日閲覧. "The $272m (£170m) IceCube instrument is not your typical telescope. Instead of collecting light from the stars, planets or other celestial objects, IceCube looks for ghostly particles called neutrinos that hurtle across space with high-energy cosmic rays. If all goes to plan, the observatory will reveal where these mysterious rays come from, and how they get to be so energetic. But that is just the start. Neutrino observatories such as IceCube will ultimately give astronomers fresh eyes with which to study the universe."
Pierre Le Hir (22 March 2011). “Tracking down the crafty neutrino”. Guardian Weekly. https://www.theguardian.com/science/2011/mar/22/france-science-nuclear-neutrino-lehir2011年6月16日閲覧. "But they are nevertheless almost undetectable: in just one second several tens of billions of neutrinos pass through every square centimetre of our bodies without us ever noticing. ... No magnetic field diverts them from their course, shooting straight ahead at almost the speed of light. ... Almost nothing stops them. ... Neutrinos are remarkably tricky customers. There are three types or flavours: electron, muon, and tau neutrinos, named after three other particles to which they give rise when they collide with an atom."
