CR quadrup oles Alexandr Starostenko BINP Novosibirsk 6
CR quadrup oles Alexandr Starostenko, BINP Novosibirsk 6 th BINP-FAIR-GSI Workshop, 03. 12. 2014
Quadrupole types WQ SWQ EWQ NQ Numbers 33 12 3 16 Yoke length, mm 900 640 900 420 Aperture radius, mm 160 185 100 Gradient, T/m 4. 7 3. 5 7 CR quadrupoles Alexandr Starostenko
WQ/SWQ parameters Aperture radius – 160 mm Gradient – 4. 7 T/m Yoke length – 900/640 mm Effective magnetic length – 1000/700 mm Current – 1470/1480 А Power – 56. 85/47. 47 k. W Total weight – 10. 59/7. 66 t Copper bar – 20. 1× 20. 1 mm 2 with hole Ø 11 mm CR quadrupoles Alexandr Starostenko
WQ view CR quadrupoles Alexandr Starostenko
WQ coil
WQ calculation CR quadrupoles Alexandr Starostenko
WQ calculation CR quadrupoles Alexandr Starostenko
EWQ parameters Aperture radius – 185 mm Gradient – 3. 5 T/m Yoke length – 900 mm Effective magnetic length – 1000 mm Current – 1380 А Power – 50. 1 k. W Total weight – 10. 2 t Copper bar – 20. 1× 20. 1 mm 2 with hole Ø 11 mm CR quadrupoles Alexandr Starostenko
EWQ calculation CR quadrupoles Alexandr Starostenko
EWQ calculation CR quadrupoles Alexandr Starostenko
NQ view CR quadrupoles Alexandr Starostenko
NQ calculation CR quadrupoles Alexandr Starostenko
NQ calculation CR quadrupoles Alexandr Starostenko
BINP activity plan for year 2015* • Continue CR magnets design and prepare all specs • Start design work of specific 1 -st dipole in pbar TCR 1 line • Sign contract with FAIR on dipole magnets manufacturing • Keep close contact with GSI team! *Part of BINP Magnets group CR quadrupoles Alexandr Starostenko
- Slides: 14