Add to ORKGThe new heavy ion synchrotron facility proposed by GSI will have two superconducting magnet rings in the same tunnel, with rigidities of 200T-m and 100T.m. Fast ramp times are needed, which can cause significant problems for the magnets, particularly in the areas of s c loss and field distortion. This paper discusses the 200T.m ring, which will use Cos0 magnets based on the RHIC dipole design. We discuss the reasons for choosing Rutherford cable with a resistive core and report loss measurements carried out on cable samples. These measurements are compared with theoretical calculations using measured values of inter-strand resistance. Reasonably good agreement is found, but there are indications of non-uniformity in the adjacent resistance ...
Fast-cycling magnetic fields, produced by superconducting magnets of modern accelerators, generate c...
AbstractFast Cycled Superconducting Magnets (FCM's) are an option of interest for the long-term cons...
The high field superconducting magnets required for ongoing and planned upgrades to the Large Hadron...
The new heavy ion synchrotron facility proposed by GSI will have two superconducting magnet rings in...
Abstract—Cored Nb-Ti Rutherford cables with high crossover resistance Rc are being investigated to m...
Dipole magnets for the so-called SIS-300 heavy-ion synchrotron at GSI are designed to generate 6Â T ...
Abstract—Cored Nb-Ti Rutherford cables with high crossover resistance Rc are being investigated to m...
GSI, Darmstadt is preparing to build FAIR (Facility for Antiproton and Ion Research) which include S...
The high field superconducting magnets required for ongoing and planned upgrades to the large hadron...
The high field superconducting magnets required for ongoing and planned upgrades to the large hadron...
Rutherford cables for particle accelerator magnets can be subjected to a time-varying magnetic field...
INFN (Istituto Nazionale di Fisica Nucleare, Italy) has started in 2006 the DISCORAP project, which ...
The stability of superconducting magnets has a high priority for particle accelerators, since the op...
Fast Cycled Superconducting Magnets (FCM's) are an option of interest for the long-term consolidatio...
Multistrand cables may exhibit two classes of parasitic magnetization both of which can distort the ...
Fast-cycling magnetic fields, produced by superconducting magnets of modern accelerators, generate c...
AbstractFast Cycled Superconducting Magnets (FCM's) are an option of interest for the long-term cons...
The high field superconducting magnets required for ongoing and planned upgrades to the Large Hadron...
The new heavy ion synchrotron facility proposed by GSI will have two superconducting magnet rings in...
Abstract—Cored Nb-Ti Rutherford cables with high crossover resistance Rc are being investigated to m...
Dipole magnets for the so-called SIS-300 heavy-ion synchrotron at GSI are designed to generate 6Â T ...
Abstract—Cored Nb-Ti Rutherford cables with high crossover resistance Rc are being investigated to m...
GSI, Darmstadt is preparing to build FAIR (Facility for Antiproton and Ion Research) which include S...
The high field superconducting magnets required for ongoing and planned upgrades to the large hadron...
The high field superconducting magnets required for ongoing and planned upgrades to the large hadron...
Rutherford cables for particle accelerator magnets can be subjected to a time-varying magnetic field...
INFN (Istituto Nazionale di Fisica Nucleare, Italy) has started in 2006 the DISCORAP project, which ...
The stability of superconducting magnets has a high priority for particle accelerators, since the op...
Fast Cycled Superconducting Magnets (FCM's) are an option of interest for the long-term consolidatio...
Multistrand cables may exhibit two classes of parasitic magnetization both of which can distort the ...
Fast-cycling magnetic fields, produced by superconducting magnets of modern accelerators, generate c...
AbstractFast Cycled Superconducting Magnets (FCM's) are an option of interest for the long-term cons...
The high field superconducting magnets required for ongoing and planned upgrades to the Large Hadron...