Conveners
Thu-Mo-Po.02 - Design and Development of Accelerator Magnets I
- Yury Ilin (ITER IO)
- Igor Novitski (FNAL)
The MgB₂ wire manufacturing process at ASG Superconductors has reached an advanced level of maturity, ensuring high reproducibility and homogeneity in long-length superconducting wires and tapes. These wires are available in various sizes and configurations, with single-unit lengths extending up to 6–7 km. The wires exhibit excellent mechanical properties, tailored through the careful...
This paper presents the design of the FCC-ee booster dipole magnets. The booster dipoles are low-field iron-dominated cycled H-type magnets. They consist of an 11 meter long laminated steel yoke with anodized aluminum busbars instead of coils. The magnet is designed to mitigate parasitic effects, namely the Earth’s magnetic field and yoke hysteresis, that become significant at the 6.5 mT field...
The Frascati National Laboratories (LNF) of National Institute for Nuclear Physics (INFN) have extensive experience in the design and measurement of electromagnets and permanent magnets for particle accelerators. A large amount of design and tests, including detailed magnetic characterization for various projects such as the DAΦNE collider [1] , CNAO [2], and other experiments have been...
For the development at CERN (European Center for Nuclear Research) of the post-LHC accelerator infrastructures, HL-LHC (High Luminosity Large Hadron Collider) and FCC (Future Circular Collider), a new generation of magnets with extreme mechanical constraints, capable of generating high-quality magnetic fields of the order of 14T (operational) and energy efficient will be required. These...
In high-energy particle accelerators, kicker magnets are essential for injecting and extracting particle beams using fast-pulsed magnetic fields. A key challenge in their design is minimizing beam coupling impedance to maintain beam stability and reduce induced power losses while preserving the fast rise and fall times of the magnetic pulse.
This paper presents innovative principles and...
The injector operating within the 3–15 MeV energy range is considered to hold significant potential for various practical applications, with broad prospects demonstrated in scientific experiments and industrial applications. For such typical injectors, the precise measurement of beam quality through a beam diagnosis system is considered crucial. The development of a universal beam diagnosis...
