Magnet design issues and concepts for the new injector

@article{Fabbricatore2011MagnetDI,
  title={Magnet design issues and concepts for the new injector},
  author={Pasquale Fabbricatore},
  journal={arXiv: Accelerator Physics},
  year={2011}
}
Possible layouts of superconducting dipoles for the main injector of High Energy LHC (HE-LHC) are proposed on the basis of the experience matured with ongoing R&D activities at the Italian National Institute of Nuclear Physics (INFN), targeted at developing the technologies for high field fast cycled superconducting magnets for the SIS300 synchrotron of FAIR. Two different magnets are analysed: a) a 4 T dipole ramped up to 1.5 T/s, and b) a 6 T dipole to be operated at lower ramp rates. 

Figures and Tables from this paper

PRELIMINARY CONSIDERATIONS ABOUT THE INJECTORS OF THE HE-LHC

A hadron collider operating at an energy much larger than the LHC (”HE-LHC”) would be a logical successor to the LHC itself, especially if its cost can be minimized by reusing a significant part of

The Curved Fast Ramped Superconducting Dipoles for FAIR SIS300 Synchrotron: From First Model to Future Developments

The synchrotron SIS300 is a fundamental component of the FAIR facility under construction at the GSI laboratory in Darmstadt. The acceleration of high intensity proton and heavy ion beams requires

References

SHOWING 1-10 OF 14 REFERENCES

Superconducting magnets for the "International Accelerator Facility for Beams of Ions and Antiprotons" at GSI

The concept for GSI's planned future facility is based on two superconducting synchrotrons, SIS 100 and SIS 200. The two accelerators are in the same tunnel and have the same radius R, for operation

ELECTROMAGNETIC DESIGN OF SUPERCONDUCTING DIPOLES BASED ON SECTOR COILS

We study the coil layouts of superconducting dipoles for particle accelerators based on the sector geometry. We show that a simple model based on a sector coil with a wedge allows us to derive an

Low Loss Nb-Ti Superconducting Rutherford Cable Manufacture for the SIS300 INFN Model Dipole

The INFN (Istituto Nazionale di Fisica Nucleare, Italy) has launched in 2006 the DISCORAP (DIpoli SuperCOnduttori RApidamente Pulsati, or fast-pulsed superconducting dipoles) project which foresees

SIS 300 Dipole Model

FAIR (Facility for Antiproton and Ion Research), planned to be built at the site of GSI will include the 300 Tm fast-ramping heavy ion synchrotron SIS 300. In the frame of a collaboration between

A Model Dipole for FAIR SIS300: Design of the Mechanical Structure

Design activities coupled with conductor R&D and model coil construction are under way for developing a curved fast cycled superconducting dipole suitable for operations of the SIS300 synchrotron at

Development of a Curved Fast Ramped Dipole for FAIR SIS300

At present, one of the main options for beam bending dipoles of the SIS 300 synchrotron, under design for the FAIR facility at GSI, is a single layer magnet 7.8 m long, 100 mm in bore diameter,

Low-Loss NbTi Rutherford Cable for Application to the SIS-300 Dipole Magnet Prototype

INFN (Istituto Nazionale di Fisica Nucleare, Italy) has started in 2006 the DISCORAP project, which foresees the design, manufacture and test of a dipole prototype for the SIS-300 synchrotron of the

Field Quality and Losses for the 4.5 T Superconducting Pulsed Dipole of SIS300

This paper presents the 2D design of the SIS300 synchrotron dipole of the FAIR facility at GSI. The dipole has a length of 7.8 m, a field of 4.5 T, in a 100 mm bore, and is ramped at 1 T/s. The

Cable Design for FAIR SIS 300

GSI, Darmstadt is preparing to build FAIR (Facility for Antiproton and Ion Research) which include SIS 300, a 300T - m fast-ramping heavy ion synchrotron. Dipoles for this ring will be 2.9 m long,