LHC Design Report, Issue 3, Volume 3European Organization for Nuclear Research, 2004 |
From inside the book
Results 1-3 of 36
Page 28
... septum conductor . To reduce the fringe field of the magnets , insulation has been eliminated between magnet yoke and septum conductor , while the return conductor of the coil is insulated with several layers of 0.06 mm and 0.12 mm ...
... septum conductor . To reduce the fringe field of the magnets , insulation has been eliminated between magnet yoke and septum conductor , while the return conductor of the coil is insulated with several layers of 0.06 mm and 0.12 mm ...
Page 338
... septum were 80.6 mm and 6.7 mrad respectively . The septum was positioned at 53 mm from the central orbit ; its ... magnet strength of 0.247 Tm to handle the 51.5 mrad beam deflection , which is beyond the maximum strength of the present ...
... septum were 80.6 mm and 6.7 mrad respectively . The septum was positioned at 53 mm from the central orbit ; its ... magnet strength of 0.247 Tm to handle the 51.5 mrad beam deflection , which is beyond the maximum strength of the present ...
Page 340
... magnet bump ( using one power supply only ) are presented in Tab . 37.3 . The two - magnet bump will be implemented first with the possibility to install a 3- magnet bump later if needed . A new injection septum has to be built and the ...
... magnet bump ( using one power supply only ) are presented in Tab . 37.3 . The two - magnet bump will be implemented first with the possibility to install a 3- magnet bump later if needed . A new injection septum has to be built and the ...
Contents
INTRODUCTION AND SUMMARY | 3 |
PROTON LINAC FOR LHC INJECTION | 13 |
BOOSTER ENERGY UPGRADE TO 1 4 GeV OTHER SYSTEMS | 27 |
Copyright | |
32 other sections not shown
Common terms and phrases
acceleration amplifier antiproton aperture batch beam dump bending magnets betatron bump bunch length bunch spacing bunch train CERN Chamonix circuit cooling cycle damper dipoles dispersion ejection electron cloud electron cooler emittance blow-up emittance growth energy equipment feedback ferrite Figure filter frequency Geneva GeV/c harmonic horizontal impedance increase injection errors injector installed kicker lead ion LEIR LHC beam LHC bunch LHC injection Linac longitudinal emittance loop LSS4 machine maximum measurements MHz cavity mismatch mode modules momentum spread monitors mrad nominal LHC beam operation optics orbit parameters phase phase space pick-ups plane power converters power supplies protons pulse quadrupoles reduce resonance RF system ring scheme septa septum septum magnet shielding shown in Fig signal space charge switch tank temperature Thyratron thyristor transfer line transverse emittance tune tunnel upgrade vacuum chamber vertical voltage