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Impact Of Superconductive Magnets On Accelerator Facilities
Abstract As accelerators have been pushed to higher and higher energies, their field requirements and, therefore, their power and cooling system requirements, have increased substantially. Superconductive magnets have an internal electrical resistance of zero and, therefore, waste almost no energy in the form of heat emission. As a result, their use substantially reduces both the power and cooling system requirements of the facility and, therefore, reduces both its capital and operating costs. Experience at CEBAF and at Fermilab demonstrates the tremendous savings resulting from the use of superconductive, rather than conventional magnets and RF cavities. If conventional magnets were used to produce the 20TeV beam energies desired for the new Superconducting Super Collider, the costs would astronomical and the project would be economically, politically, as well as perhaps technologically, infeasible. It is only through the use of superconductive magnets that the desired beam energies can reasonably be achieved.
Impact Of Superconductive Magnets On Accelerator Facilities
Abstract As accelerators have been pushed to higher and higher energies, their field requirements and, therefore, their power and cooling system requirements, have increased substantially. Superconductive magnets have an internal electrical resistance of zero and, therefore, waste almost no energy in the form of heat emission. As a result, their use substantially reduces both the power and cooling system requirements of the facility and, therefore, reduces both its capital and operating costs. Experience at CEBAF and at Fermilab demonstrates the tremendous savings resulting from the use of superconductive, rather than conventional magnets and RF cavities. If conventional magnets were used to produce the 20TeV beam energies desired for the new Superconducting Super Collider, the costs would astronomical and the project would be economically, politically, as well as perhaps technologically, infeasible. It is only through the use of superconductive magnets that the desired beam energies can reasonably be achieved.
Impact Of Superconductive Magnets On Accelerator Facilities
Cheng, Allen (author) / Ridler, John (author)
Supercollider 1 ; 623-626
1989-01-01
4 pages
Article/Chapter (Book)
Electronic Resource
English
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