1 / 18

MBXW

MBXW. MBXW 01 (prototype). IR1 and IR 5 Layout. IP 1 IP5. D1 : 6 X MBXW. 83.5 m. 0 m. 59 m. Distance between the 2 beams : 19 mm. IR 1 Left and Right are symmetrical IR 5 Left and Right are symmetrical. MBXW. Side view. z. Y. X. 2 coils of 48 turns Cu conductor section :. MBXW.

kioshi
Download Presentation

MBXW

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. MBXW MBXW 01 (prototype)

  2. IR1 and IR 5 Layout IP 1 IP5 D1 : 6 X MBXW 83.5 m 0 m 59 m Distance between the 2 beams : 19 mm IR 1 Left and Right are symmetrical IR 5 Left and Right are symmetrical

  3. MBXW Side view z

  4. Y X 2 coils of 48 turns Cu conductor section : MBXW Section view

  5. MBXW • 25 magnets will be installed in the LHC : - 12 magnets in the experimental IR 1 (ATLAS) - 12 magnets in the experimental IR 5 (CMS) - 1 magnet in the experimental IR 8 (LHCb) • Flux density : - operating : 0.08 to 1.38 T - ultimate : 1.48 T • Current : - Nominal at B= 1.48T : ~ 750 A - Ultimate: 830 A • Weight : 11,5 T

  6. MBXWmagnetic measurement • Magnetic measurement with a Hall probe array at BINP Field quality Hall probe X

  7. MBXW Field integral quality, in the good field region (+/-41 mm) at 1.38 T ( 750 A )   2 10-4at 0.08 T (not measurable)  510-4

  8. without corrected shims

  9. without corrected shims

  10. Magnetic Measurements of MBXW001 magnet (May 2003) at CERN- ABSOLUTE - 5 coils mole

  11. Magnetic Measurements of MBXW001 magnet (May 2003) at CERN - COMPENSATE - 5 coils mole

More Related