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Schedule for the FAIR Antiproton Target

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Presentation on theme: "Schedule for the FAIR Antiproton Target"— Presentation transcript:

1 Schedule for the FAIR Antiproton Target
K. Knie Magnets Power supplies Vacuum Beam diagnostics "Special insertions": target, horn (pulser), target station

2 Magnets pbar separator CR dipole 3 24 narrow quadrupole 5 4
wide quadrupole 13 36 sextupole 6

3 Estimated time for production of one dipole magnet is about 2 months
Dipole magnets Required number CR Max. magnetic field [T] Bending angle [Grad] Bending radius [m] Overall length [m] Overall width [m] Overall height [m] Hor.Vert. good field area [mm] / 140 Overall weight, [t] Month 2011 2012 2013 2014 2015 2016 2017 2018 Planning 14 Procurement; manufacturing of pre-series 12.1 Manufacturing of series 48.8 Shipment; transportation; assembly; bringing into service 13.1 Estimated time for production of one dipole magnet is about 2 months

4 Dipole magnets Two production lines are necessary
Required number CR + pbar Max. magnetic field [T] Bending angle [Grad] Bending radius [m] Overall length [m] Overall width [m] Overall height [m] Hor.Vert. good field area [mm] / 140 Overall weight, [t] Month 2011 2012 2013 2014 2015 2016 2017 2018 Planning 14 Procurement; manufacturing of pre-series 12.1 Manufacturing of series 48.8 Shipment; transportation; assembly; bringing into service 13.1 Two production lines are necessary Estimated time for production of one dipole magnet is about 2 months

5 Wide Quadrupole Magnets
Required number CR Max. field gradient, [T/m] Overall length, [m] Overall length/height [m] /1.4 Aperture radius [mm] Hor./Vert. good field area, [mm] /180 Overall weight [t] Month 2011 2012 2013 2014 2015 2016 2017 2018 Compile workpackage descriptions 29.5 Procurement; manufacturing of pre-series 17.4 Manufacturing of series 60 Shipment; transportation; assembly; bringing into service 24 Estimated time for production of one wide quadrupole is about 1.5 months

6 Wide Quadrupole Magnets
Required number CR + pbar Max. field gradient, [T/m] Overall length, [m] Overall length/height [m] /1.4 Aperture radius [mm] Hor./Vert. good field area, [mm] /180 Overall weight [t] Month 2011 2012 2013 2014 2015 2016 2017 2018 Compile workpackage descriptions 29.5 Procurement; manufacturing of pre-series 17.4 Manufacturing of series 60 Shipment; transportation; assembly; bringing into service 24 Two production lines are necessary Estimated time for production of one wide quadrupole is about 1.5 months

7 Sextupole magnets Required number CR 24
Max. field gradient, [T/m**2] Overall length, [m] Overall length/height [m] /0.9 Aperture radius [mm] Hor./Vert. good field area, [mm] /180 Overall weight [t] Month 2011 2012 2013 2014 2015 2016 2017 2018 Planning 14 Procurement; manufacturing of pre-series 12 Manufacturing of series 47 Shipment; transportation; assembly; bringing into service 9.1 Estimated time for production of one sextupole magnet is about 1.6 month

8 Two production lines are necessary
Sextupole magnets Required number CR + pbar Max. field gradient, [T/m**2] Overall length, [m] Overall length/height [m] /0.9 Aperture radius [mm] Hor./Vert. good field area, [mm] /180 Overall weight [t] Month 2011 2012 2013 2014 2015 2016 2017 2018 Planning 14 Procurement; manufacturing of pre-series 12 Manufacturing of series 47 Shipment; transportation; assembly; bringing into service 9.1 Two production lines are necessary Estimated time for production of one sextupole magnet is about 1.6 month

9 1 production line / magnet type
pbar separator CR dipole 3 24 narrow quadrupole 5 4 wide quadrupole 13 36 sextupole 6

10 2 production lines / magnet type
pbar separator CR dipole 3 24 narrow quadrupole 5 4 wide quadrupole 13 36 sextupole 6

11 Power Supplies & Vacuum
Mostly standard components, no special demands  uncritical

12 Beam Diagnostics No detailled schedule yet, but: EoI of GSI
work already in progress, next to the target: simple detectors (SEM, CERN beam loss monitors) in separator: standard devices (BPMs, screens, grids) which, however, must be adapted for the large beam sizes (similar to Super-FRS and CR).  no time critical devices recognized

13 Target Station

14 Target Station

15 Target Al block Ti window
inside: Ni rod (r = 0.15 cm, l = 10 cm) within graphite cylinder (r = 1 cm) air cooling

16 Target

17 Magnetic Horn + 400 kA Pulser

18 Magnetic Horn + 400 kA Pulser
A pulser is needed for these tests

19 Summary delayed: magnets (1 production line) critical: horn pulser
less critical: target station, horn uncritical: magnets (2 production lines), vacuum, BD, target, power supplies

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