Matches in DBpedia 2016-04 for { ?s ?p "The UCLA Electric Tokamak is a low field (0.25 T) magnetic fusion tokamak device with a large aspect ratio. At present, ET is the largest tokamak ever built, with a vacuum vessel slightly bigger than JET.The machine has a major radius of 5 metres, a minor radius of 1 metre, plasma current of 45 kiloamperes and can produce a core electron plasma temperature of 300 electronvolts. First plasma was achieved in January 1999."@en }
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- Electric_Tokamak abstract "The UCLA Electric Tokamak is a low field (0.25 T) magnetic fusion tokamak device with a large aspect ratio. At present, ET is the largest tokamak ever built, with a vacuum vessel slightly bigger than JET.The machine has a major radius of 5 metres, a minor radius of 1 metre, plasma current of 45 kiloamperes and can produce a core electron plasma temperature of 300 electronvolts. First plasma was achieved in January 1999.".
- Q5357515 abstract "The UCLA Electric Tokamak is a low field (0.25 T) magnetic fusion tokamak device with a large aspect ratio. At present, ET is the largest tokamak ever built, with a vacuum vessel slightly bigger than JET.The machine has a major radius of 5 metres, a minor radius of 1 metre, plasma current of 45 kiloamperes and can produce a core electron plasma temperature of 300 electronvolts. First plasma was achieved in January 1999.".
- Electric_Tokamak comment "The UCLA Electric Tokamak is a low field (0.25 T) magnetic fusion tokamak device with a large aspect ratio. At present, ET is the largest tokamak ever built, with a vacuum vessel slightly bigger than JET.The machine has a major radius of 5 metres, a minor radius of 1 metre, plasma current of 45 kiloamperes and can produce a core electron plasma temperature of 300 electronvolts. First plasma was achieved in January 1999.".
- Q5357515 comment "The UCLA Electric Tokamak is a low field (0.25 T) magnetic fusion tokamak device with a large aspect ratio. At present, ET is the largest tokamak ever built, with a vacuum vessel slightly bigger than JET.The machine has a major radius of 5 metres, a minor radius of 1 metre, plasma current of 45 kiloamperes and can produce a core electron plasma temperature of 300 electronvolts. First plasma was achieved in January 1999.".