Author :
Bleadon, M.E. ; Brown, B.C. ; Chester, N.S. ; Desavouret, E. ; Garvey, J.D. ; Glass, H.D. ; Harding, David J. ; Harfoush, F.A. ; Holmes, S.D. ; Humbert, J.C. ; Kerby, J.S. ; Knauf, A.B. ; Kobliska, G.R. ; Lipski, A. ; Martin, P.S. ; Mazur, P.O. ; Orris, D
Author_Institution :
Fermi Nat. Accel. Lab., Batavia, IL, USA
Abstract :
The Fermilab Main Injector Project will provide 120-150-GeV proton and antiproton beams for Fermilab Fixed Target Physics and Colliding Beams Physics use. A dipole magnet has been designed and prototypes constructed for the principal bending magnets of this new accelerator. The design considerations and fabrication techniques are described. Measurement results on prototypes are reported, emphasizing the field uniformity achieved in both body field and end field at excitation levels from injection at 0.1 T to full field of 1.7 T
Keywords :
beam handling equipment; beam handling techniques; electromagnets; magnetic fields; proton accelerators; synchrotrons; 0.1 to 1.7 T; 120 to 150 GeV; Colliding Beams Physics; Fermilab Fixed Target Physics; Fermilab Main Injector dipole construction techniques; Main Injector synchrotron; accelerator; antiproton beams; bending magnets; dipole magnet; magnetic field measurement; proton beam; prototype magnet measurements; Accelerator magnets; Colliding beam accelerators; Fabrication; Magnetic field measurement; Particle beam injection; Particle beams; Physics; Proton accelerators; Prototypes; Structural beams;
