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The observatory was designed to study solar neutrino s, study atmospheric neutrino s, search for proton decay, and detect neutrinos from a supernova anywhere in our galaxy.
Super-K is located 1,000 m underground in Mozumi Mine of the Kamioka Mining and Smelting Co. in Kamioka -cho, Gifu, Japan. It consists of 50,000 tons of pure water surrounded by about 11000 photomultiplier tubes. The cylindrical structure is 40 m tall and 40 m across. A neutrino interaction with the electrons or nuclei of water can produce a particle that moves faster than the speed of light in water (although of course slower than the speed of light in vacuum). This creates a flash of light due to Cherenkov radiation which is the optical equivalent to a sonic boom. The distinct pattern of this flash provides information on the direction and flavor of the incoming neutrino.
Construction of Kamioka Underground Observatory, the predecessor of the present Kamioka Observatory, Institute for Cosmic Ray Research , University of TokyoThe University of Tokyo (; Tokyo Daigaku abbreviated as Todai is generally ranked as Japan's most prestigious university. The University has five campuses in Hongo, Komaba, Kashiwa, Shirokane and Nakano and 10 faculties with a total of around 28,000 stude began in 1982Events January January 6 William Bonin is convicted of being the "freeway killer". January 8 AT&T agrees to divest itself of twenty-two subdivisions January 11 Mark Thatcher, son of the British Prime Minister Margaret Thatcher, disappears in the Sahara du and was completed in April, 1983Events January January 1 Beat Raaflaub became Basel Boys Choir's new conductor January 1 the ARPANET officially changes to use the Internet Protocol, creating the Internet. January 1 compulsory wearing of seat belts becomes law in the UK. January 2 The mu. The purpose of the observatory was to detect the proton decay, one of the most fundamental questions of elementary particle physics.
The detector, named KAMIOKANDE for Kamioka Nucleon Decay Experiment, was a tank which contained 3,000 tons of pure water and had about 1,000 photomultiplier tubes (PMTs) attached to the inner surface. The size of the tank was 16.0 m in height and 15.6 m in diameter. An upgrade of the detector was started in 19851985 is a common year starting on Tuesday. Events January events January 1 Creation of the Internet's Domain Name System. January 17 British Telecom annouces they are going to abolish the famous red telephone boxes. January 23 A debate in the House of Lor to observe neutrinos of cosmic origin. As a result, the detector had become highly sensitive and had succeeded in detecting neutrinos from a supernova explosion which was observed from in the Large Magellanic Cloud in Febrary 1987. Solar neutrino s were observed in 1988 adding to the advancements in neutrino astronomy and neutrino astrophysics.
Despite its success in neutrino observation, Kamiokande could not detect the proton decay, its first aim. Also, even higher sensitivity was needed to observe neutrinos with high statistical confidence. This led to the construction of Super-Kamiokande, with ten times more water volume and PMTs than Kamiokande. Super-Kamiokande started observation in 1996.
Super-Kamiokande Collaboration announced the first evidence of neutrino oscillations in 1998, which means neutrino has non-zero mass. Until this, all observational evidences were consistent with neutrinos being massless, although theorists had speculated on the possibility of neutrinos having non-zero mass for many years.
On November 12, 2001, several thousand photomultiplier tubes in the Super-Kamiokande detector imploded, apparently in a chain reaction as the pressure waves from each imploding tube cracked its neighbours. The detector has been partially restored with about 5000 photomultiplier tubes with protective shells that will prevent the chain reaction from recurring.