Add to ORKGAccelerator magnet technology is currently dominated by the use of NbTi superconductor. New and more demanding applications for superconducting accelerator magnets require the use of alternative materials. Several programs in the US are taking advantage of recent improvements in Nb{sub 3}Sn to develop high field magnets for new applications. Highlights and challenges of the US R and D program are presented along with the status of conductor development. In addition, a new R and D focus, the US LHC Accelerator Research Program, will be discussed
AbslraCi- In order to provide a cost effective high field magnet option for the next generation HEP ...
High temperature superconductors (HTS) have the potential to change the design and operation of futu...
High Temperature Superconductors (HTS) have the potential to change the design and operation of futu...
Accelerator magnet technology is currently dominated by the use of NbTi superconductor. New and more...
Accelerator magnet technology is currently dominated by the use of Nb Ti superconductor. New and mor...
The US DOE has initiated a Conductor Development Program aimed at demonstrating a high current densi...
The LHC magnet R&D Program has shown that the limit of NbTi technology at 1.8 K was in the range 10 ...
With the LHC, magnets of 10 T peak flux density Nb-Ti technology were developed and this technology ...
During the past 30 years superconducting magnet systems have enabled accelerators to achieve energie...
The LHC magnet R&D program has shown that the limit of NbTi technology at 1.9 K was in the 10-to-10....
The next generation of accelerators for high-energy physics will require high-field, small-bore dipo...
The maximum magnetic field available to guide and focus the proton beams will be the most important ...
The high luminosity upgrade of the Large Hadron Collider at CERN requires a new generation of high f...
The upcoming Luminosity upgrade of the LHC (HL-LHC) will rely on the use of Accelerator Quality Nb$_...
The 2014 Particle Physics Project Prioritization Panel (P5) Report identified a critical need for tr...
AbslraCi- In order to provide a cost effective high field magnet option for the next generation HEP ...
High temperature superconductors (HTS) have the potential to change the design and operation of futu...
High Temperature Superconductors (HTS) have the potential to change the design and operation of futu...
Accelerator magnet technology is currently dominated by the use of NbTi superconductor. New and more...
Accelerator magnet technology is currently dominated by the use of Nb Ti superconductor. New and mor...
The US DOE has initiated a Conductor Development Program aimed at demonstrating a high current densi...
The LHC magnet R&D Program has shown that the limit of NbTi technology at 1.8 K was in the range 10 ...
With the LHC, magnets of 10 T peak flux density Nb-Ti technology were developed and this technology ...
During the past 30 years superconducting magnet systems have enabled accelerators to achieve energie...
The LHC magnet R&D program has shown that the limit of NbTi technology at 1.9 K was in the 10-to-10....
The next generation of accelerators for high-energy physics will require high-field, small-bore dipo...
The maximum magnetic field available to guide and focus the proton beams will be the most important ...
The high luminosity upgrade of the Large Hadron Collider at CERN requires a new generation of high f...
The upcoming Luminosity upgrade of the LHC (HL-LHC) will rely on the use of Accelerator Quality Nb$_...
The 2014 Particle Physics Project Prioritization Panel (P5) Report identified a critical need for tr...
AbslraCi- In order to provide a cost effective high field magnet option for the next generation HEP ...
High temperature superconductors (HTS) have the potential to change the design and operation of futu...
High Temperature Superconductors (HTS) have the potential to change the design and operation of futu...