Add to ORKGWinding of a Nb--Ti test coil at the Lawrence Livermore Laboratory is nearly complete. The conductor in this coil operates in a maximum field of 7.5 T and provides the 2-T field required by the Mirror Fusion Test Facility. Nb/sub 3/Sn multifilamentary conductors, made using the ''bronze'' technique, appear capable of providing the higher fields needed by commercial reactors
A 10 T, 2-layer cos( theta )-dipole model magnet with an 88 mm clear bore utilizing an advanced powd...
The future run of the Large Hadron Collider with lead ions will require important modifications in t...
In order to achieve the highest field performance for SSC magnets, superconducting wires with small ...
During FY76 Lawrence Livermore Laboratory (LLL) continued its development of niobium tin (Nb/sub 3/S...
The development of large-bore, high-field magnets for fusion energy applications requires a system a...
The objective of this program was to continue the developmental effort aimed toward production of a ...
The design and fabrication of a 1.1-m bore superconducting coil for an 8- T facility at Lawrence Liv...
The optimization of the energy generated by a MagnetoHydroDynamic (MHD) channel using a superconduct...
A one-meter long magnet has been fabricated to provide background field for testing racetrack shaped...
As part of the development of superconducting toroidal field coils for tokamak reactors, the U.S. La...
Fermilab is developing high field superconducting dipole magnets based on Nb/sub 3/Sn for a post-LHC...
The goal of the common coil magnet R&D program at Brookhaven National Laboratory (BNL) is to dev...
A large bore 'High-Temperature Superconductor Cable Test Facility Magnet' for testing advanced cable...
A prototype, Nb{sub 3}Sn superconducting magnet, utilizing a racetrack coil design has been built an...
The Toroidal Field Coils (TFC) of the EUROFusion DEMO reactor call for Nb3Sn conductor with high fie...
A 10 T, 2-layer cos( theta )-dipole model magnet with an 88 mm clear bore utilizing an advanced powd...
The future run of the Large Hadron Collider with lead ions will require important modifications in t...
In order to achieve the highest field performance for SSC magnets, superconducting wires with small ...
During FY76 Lawrence Livermore Laboratory (LLL) continued its development of niobium tin (Nb/sub 3/S...
The development of large-bore, high-field magnets for fusion energy applications requires a system a...
The objective of this program was to continue the developmental effort aimed toward production of a ...
The design and fabrication of a 1.1-m bore superconducting coil for an 8- T facility at Lawrence Liv...
The optimization of the energy generated by a MagnetoHydroDynamic (MHD) channel using a superconduct...
A one-meter long magnet has been fabricated to provide background field for testing racetrack shaped...
As part of the development of superconducting toroidal field coils for tokamak reactors, the U.S. La...
Fermilab is developing high field superconducting dipole magnets based on Nb/sub 3/Sn for a post-LHC...
The goal of the common coil magnet R&D program at Brookhaven National Laboratory (BNL) is to dev...
A large bore 'High-Temperature Superconductor Cable Test Facility Magnet' for testing advanced cable...
A prototype, Nb{sub 3}Sn superconducting magnet, utilizing a racetrack coil design has been built an...
The Toroidal Field Coils (TFC) of the EUROFusion DEMO reactor call for Nb3Sn conductor with high fie...
A 10 T, 2-layer cos( theta )-dipole model magnet with an 88 mm clear bore utilizing an advanced powd...
The future run of the Large Hadron Collider with lead ions will require important modifications in t...
In order to achieve the highest field performance for SSC magnets, superconducting wires with small ...