Add to ORKGMotivated by the discussions on scenarios for LHC upgrades, beam studies on the stability of flat bunches in a double-harmonic RF system have been conducted in the CERN Proton Synchrotron (PS). Injecting nearly nominal LHC beam intensity per cycle, 18 bunches are accelerated on harmonic h = 21 to 26GeV with the 10MHz RF system. On the flat-top, all bunches are then transformed to flat bunches by adiabatically adding RF voltage at h = 42 from a 20 MHz cavity in anti-phase to the h = 21 system. The voltage ratio V (h42)/V (h21) of about 0.5 was set according to simulations. For the next 140 ms, longitudinal profiles show stable bunches in the double-harmonic RF bucket until extraction. Without the second harmonic component, coupled-bunch osci...
We investigate the dynamics of longitudinally flat bunches created with a second harmonic cavity in ...
The CERN PS Booster[2] uses a double r.f. system to lengthen the bunches and reduce the transverse s...
The CERN PS Booster, comprised of four superposed rings, is the first synchrotron in the LHC proton ...
Motivated by the discussions on scenarios for LHC upgrades, beam studies on the stability of flat bu...
Motivated by the discussions on scenarios for LHC upgrades, beam studies on the stability of flat bu...
The Super Proton Synchrotron (SPS) at CERN is the injector of the Large Hadron Collider (LHC). Multi...
Longitudinal coupled-bunch instabilities after transition crossing and at the flat-top limit the int...
The LHC operates using a 400 MHz SC RF system. A 200 MHz NC RF system was foreseen in the LHC Design...
Increasing the collider luminosity by replacing bunches having Gaussian line-charge distribution wit...
Operation with a double RF system is essential for many accelerators in order to increase beam stabi...
A high harmonic RF system which could serve multiple purposes was proposed for the LHC. Possible app...
Significant beam losses increasing with intensity are observed at capture and along the SPS flat bot...
This note presents the analysis of the measurements that were performed on 14/07/2009 and 11/08/2009...
Since all experimental and theoretical evidence indicates that the beam intensity in the PSB is at p...
Longitudinal coupled-bunch instabilities pose a major limitation to the intensity and quality of LHC...
We investigate the dynamics of longitudinally flat bunches created with a second harmonic cavity in ...
The CERN PS Booster[2] uses a double r.f. system to lengthen the bunches and reduce the transverse s...
The CERN PS Booster, comprised of four superposed rings, is the first synchrotron in the LHC proton ...
Motivated by the discussions on scenarios for LHC upgrades, beam studies on the stability of flat bu...
Motivated by the discussions on scenarios for LHC upgrades, beam studies on the stability of flat bu...
The Super Proton Synchrotron (SPS) at CERN is the injector of the Large Hadron Collider (LHC). Multi...
Longitudinal coupled-bunch instabilities after transition crossing and at the flat-top limit the int...
The LHC operates using a 400 MHz SC RF system. A 200 MHz NC RF system was foreseen in the LHC Design...
Increasing the collider luminosity by replacing bunches having Gaussian line-charge distribution wit...
Operation with a double RF system is essential for many accelerators in order to increase beam stabi...
A high harmonic RF system which could serve multiple purposes was proposed for the LHC. Possible app...
Significant beam losses increasing with intensity are observed at capture and along the SPS flat bot...
This note presents the analysis of the measurements that were performed on 14/07/2009 and 11/08/2009...
Since all experimental and theoretical evidence indicates that the beam intensity in the PSB is at p...
Longitudinal coupled-bunch instabilities pose a major limitation to the intensity and quality of LHC...
We investigate the dynamics of longitudinally flat bunches created with a second harmonic cavity in ...
The CERN PS Booster[2] uses a double r.f. system to lengthen the bunches and reduce the transverse s...
The CERN PS Booster, comprised of four superposed rings, is the first synchrotron in the LHC proton ...