Matches in DBpedia 2015-04 for { <http://dbpedia.org/resource/Mega_Ampere_Spherical_Tokamak> ?p ?o }
Showing triples 1 to 40 of
40
with 100 triples per page.
- Mega_Ampere_Spherical_Tokamak abstract "The Mega Ampere Spherical Tokamak (MAST) experiment is a nuclear fusion experiment in operation at Culham, Oxfordshire, United Kingdom since December 1999. It follows the highly successful Small Tight Aspect Ratio Tokamak (START) experiment (1991 - 1998). MAST uses the same innovative spherical tokamak design as START, which has shown itself to be more efficient than the conventional toroidal design, adopted by Joint European Torus (JET) and ITER. START proved to exceed even the most optimistic predictions and the purpose of MAST is to confirm the results of its forerunner by using a larger more purpose-built experiment. It was fully commissioned by EURATOM/UKAEA and took two years to design and a further two years to construct. It includes a neutral beam injector similar to that used on START and uses the same merging compression technique instead of the conventional direct induction. Merging compression provides a valuable saving of central solenoid flux, which can then be used to further ramp up the plasma current and/or maintain the required current flat-top.Its plasma volume is about 8 m3. Density ~ 1020/m3.Image to right shows Plasma in the MAST reactor. Note the almost circular outer profile of the plasma. The extensions off the top and bottom are plasma flowing to the ring diverters, a key feature of modern tokamak designs.".
- Mega_Ampere_Spherical_Tokamak thumbnail MAST_plasma_image.jpg?width=300.
- Mega_Ampere_Spherical_Tokamak wikiPageExternalLink mast-tour.
- Mega_Ampere_Spherical_Tokamak wikiPageExternalLink AkersFusion.pdf.
- Mega_Ampere_Spherical_Tokamak wikiPageExternalLink MAST.aspx.
- Mega_Ampere_Spherical_Tokamak wikiPageID "1908560".
- Mega_Ampere_Spherical_Tokamak wikiPageRevisionID "643900754".
- Mega_Ampere_Spherical_Tokamak current "1.3".
- Mega_Ampere_Spherical_Tokamak field "0.55".
- Mega_Ampere_Spherical_Tokamak hasPhotoCollection Mega_Ampere_Spherical_Tokamak.
- Mega_Ampere_Spherical_Tokamak heating "5.0".
- Mega_Ampere_Spherical_Tokamak imagetitle "Plasma in the MAST reactor.".
- Mega_Ampere_Spherical_Tokamak majorRadius "54.0".
- Mega_Ampere_Spherical_Tokamak minorRadius "36.0".
- Mega_Ampere_Spherical_Tokamak name "MAST".
- Mega_Ampere_Spherical_Tokamak operation "1999".
- Mega_Ampere_Spherical_Tokamak type Spherical_tokamak.
- Mega_Ampere_Spherical_Tokamak subject Category:Research_institutes_in_Oxfordshire.
- Mega_Ampere_Spherical_Tokamak subject Category:Tokamaks.
- Mega_Ampere_Spherical_Tokamak type Abstraction100002137.
- Mega_Ampere_Spherical_Tokamak type Association108049401.
- Mega_Ampere_Spherical_Tokamak type Group100031264.
- Mega_Ampere_Spherical_Tokamak type Institute108407330.
- Mega_Ampere_Spherical_Tokamak type Organization108008335.
- Mega_Ampere_Spherical_Tokamak type ResearchInstitutesInEngland.
- Mega_Ampere_Spherical_Tokamak type SocialGroup107950920.
- Mega_Ampere_Spherical_Tokamak type YagoLegalActor.
- Mega_Ampere_Spherical_Tokamak type YagoLegalActorGeo.
- Mega_Ampere_Spherical_Tokamak type YagoPermanentlyLocatedEntity.
- Mega_Ampere_Spherical_Tokamak comment "The Mega Ampere Spherical Tokamak (MAST) experiment is a nuclear fusion experiment in operation at Culham, Oxfordshire, United Kingdom since December 1999. It follows the highly successful Small Tight Aspect Ratio Tokamak (START) experiment (1991 - 1998). MAST uses the same innovative spherical tokamak design as START, which has shown itself to be more efficient than the conventional toroidal design, adopted by Joint European Torus (JET) and ITER.".
- Mega_Ampere_Spherical_Tokamak label "Mega Ampere Spherical Tokamak".
- Mega_Ampere_Spherical_Tokamak label "Mega-Ampere Spherical Tokamak".
- Mega_Ampere_Spherical_Tokamak sameAs Mega-Ampere_Spherical_Tokamak.
- Mega_Ampere_Spherical_Tokamak sameAs m.065dt2.
- Mega_Ampere_Spherical_Tokamak sameAs Q1916962.
- Mega_Ampere_Spherical_Tokamak sameAs Q1916962.
- Mega_Ampere_Spherical_Tokamak sameAs Mega_Ampere_Spherical_Tokamak.
- Mega_Ampere_Spherical_Tokamak wasDerivedFrom Mega_Ampere_Spherical_Tokamak?oldid=643900754.
- Mega_Ampere_Spherical_Tokamak depiction MAST_plasma_image.jpg.
- Mega_Ampere_Spherical_Tokamak isPrimaryTopicOf Mega_Ampere_Spherical_Tokamak.