Add to ORKGThe coil size and the corresponding amount of superconducting material that is used during the design process of a magnet cross-section have direct impacts on the overall magnet cost. It is therefore of interest to estimate the minimum amount of conductors needed to reach the defined field strength before a detailed design process starts. Equally, it is useful to evaluate the efficiency of a given design by calculating the amount of superconducting cables that are used to reach the envisaged main field by simple rule. To this purpose, the minimum amount of conductors for the construction of a dipole of given main field strength and aperture size is estimated taking the actual critical current density of the used strands into account. Charac...
Fermilab is developing 11 T superconducting dipole magnets for future accelerators based on Nb{sub 3...
In this paper we discuss the main principles of magnetic design for superconducting magnets (dipoles...
Pushing accelerator magnets beyond 10 T holds a promise of future upgrades to machines like the Teva...
We study the coil layouts of superconducting dipoles for particle accelerators based on the sector g...
We study the coil lay-outs of superconducting dipoles for particle accelerators based on the sector ...
Semi-analytical scaling laws have been derived for the electromagnetic design of superconducting dip...
We study how the critical gradient depends on the coil layout in a superconducting quadrupole for pa...
What is the ultimate limit to high fields in superconducting magnets for particle accelerators? In t...
Historically, improvements in dipole magnet performance have been paced by improvements in the super...
Availability of 20 T operational field dipole magnets would open the way for a 16.5 TeV beam energy ...
An 87.8 mm bore single aperture 10 T Nb3Sn model dipole magnet is under development as a next step i...
A method to obtain systematic solutions for the conductor dimensions and their layout is described. ...
In the design of superconducting accelerator magnets, the shape of the coil cross section is mainly ...
The Next European Dipole (NED) activity supported by the European Union aims at the development of a...
In this paper we show that the electromagnetic design of several superconducting quadrupoles, built ...
Fermilab is developing 11 T superconducting dipole magnets for future accelerators based on Nb{sub 3...
In this paper we discuss the main principles of magnetic design for superconducting magnets (dipoles...
Pushing accelerator magnets beyond 10 T holds a promise of future upgrades to machines like the Teva...
We study the coil layouts of superconducting dipoles for particle accelerators based on the sector g...
We study the coil lay-outs of superconducting dipoles for particle accelerators based on the sector ...
Semi-analytical scaling laws have been derived for the electromagnetic design of superconducting dip...
We study how the critical gradient depends on the coil layout in a superconducting quadrupole for pa...
What is the ultimate limit to high fields in superconducting magnets for particle accelerators? In t...
Historically, improvements in dipole magnet performance have been paced by improvements in the super...
Availability of 20 T operational field dipole magnets would open the way for a 16.5 TeV beam energy ...
An 87.8 mm bore single aperture 10 T Nb3Sn model dipole magnet is under development as a next step i...
A method to obtain systematic solutions for the conductor dimensions and their layout is described. ...
In the design of superconducting accelerator magnets, the shape of the coil cross section is mainly ...
The Next European Dipole (NED) activity supported by the European Union aims at the development of a...
In this paper we show that the electromagnetic design of several superconducting quadrupoles, built ...
Fermilab is developing 11 T superconducting dipole magnets for future accelerators based on Nb{sub 3...
In this paper we discuss the main principles of magnetic design for superconducting magnets (dipoles...
Pushing accelerator magnets beyond 10 T holds a promise of future upgrades to machines like the Teva...