Dedicated experiments were perfomed in the LHC to study the impact of noise on colliding high brightness beams. The results are compared to theoretical models and multiparticle tracking simulations. The impacts on the LHC operation and the HL-LHC project are discussed
The problem of emittance growth due to random fluctuations of the magnetic field in a hadron collide...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
The transverse emittance growth rate of colliding hadron beams driven by external sources of noise i...
The interplay between head-on beam-beam interaction and external sources of noise can be a significa...
The results of an experiment aiming at colliding high brightness bunches at 6.5 TeV in the LHC and p...
Strong-strong beam-beam simulations are employed to investigate the noise sensitivity of the emittan...
In high brightness colliders, the tune spread due to the collisions has a significant impact on the ...
Fast external noise, which gives fluctuation into the beam orbit, is discussed in connection with be...
The upgrade of the LHC from the current set-up to high luminosity performances will provide new chal...
The emittance growth in the HL-LHC due to beam– beam effects is examined by virtue of strong–strong ...
During LHC Run 1 significant transverse emittance growth through the LHC cycle was observed. Measure...
During LHC Run 1 about 30 % of the potential peak performance was lost due to transverse emittance b...
Emittance measurements through the 2012 LHC proton cycle examined possible major sources for the lar...
Emittance measurements during the run 2011 indicated a blow-up of 20 % to 30 % from LHC injection to...
The problem of emittance growth due to random fluctuations of the magnetic field in a hadron collide...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
The transverse emittance growth rate of colliding hadron beams driven by external sources of noise i...
The interplay between head-on beam-beam interaction and external sources of noise can be a significa...
The results of an experiment aiming at colliding high brightness bunches at 6.5 TeV in the LHC and p...
Strong-strong beam-beam simulations are employed to investigate the noise sensitivity of the emittan...
In high brightness colliders, the tune spread due to the collisions has a significant impact on the ...
Fast external noise, which gives fluctuation into the beam orbit, is discussed in connection with be...
The upgrade of the LHC from the current set-up to high luminosity performances will provide new chal...
The emittance growth in the HL-LHC due to beam– beam effects is examined by virtue of strong–strong ...
During LHC Run 1 significant transverse emittance growth through the LHC cycle was observed. Measure...
During LHC Run 1 about 30 % of the potential peak performance was lost due to transverse emittance b...
Emittance measurements through the 2012 LHC proton cycle examined possible major sources for the lar...
Emittance measurements during the run 2011 indicated a blow-up of 20 % to 30 % from LHC injection to...
The problem of emittance growth due to random fluctuations of the magnetic field in a hadron collide...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
About 30 % of the potential luminosity performance is lost through the different phases of the LHC c...
DOI
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