Add to ORKGAn intensive study has been undertaken since the year 2002 to understand better the various high-intensity bottlenecks of the CERN Proton Synchrotron machine. One of these limitations comes from the so-called Montague resonance. High-intensity proton synchrotrons, having larger horizontal than vertical emittance, may suffer from this fourth-order coupling resonance driven by space charge only. In particular, such resonance may lead to emittance sharing and, possibly, beam loss due to vertical acceptance limitation. Experimental observations made in the 2002, 2003 and 2004 runs on the Montague resonance are presented and compared with theoretical predictions and 3D particle-in-cell simulation results
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
Space charge presents a fundamental limitation to high intensity circular accelerators. Its effects ...
Coupling impedances and wakefields are fundamental quantities to characterize the electromagnetic in...
The Montague resonance provides a coupling between the vertical and the horizontal dynamics of beam...
The acceptance of the KEK booster has large side value (272 π mm mrad in the horizontal plane and 61...
A benchmarking experiment with a high intensity bunched beam stored for 1.2 s in a nonlinear lattice...
The proposed Mu2e experiment to search for direct {mu} {yields} e conversion at Fermilab plans slow,...
High intensity proton synchrotrons provide beams for several types of facility around the world, inc...
High intensity proton synchrotrons provide beams for several types of facility around the world, inc...
The CERN Proton Synchrotron (PS) determines the basic bunch spacing for the Large Hadron Collider (L...
The combined effect of space charge and nonlinear resonance on beam loss and emittance was measured ...
During the commissioning of the CERN Proton Synchrotron multiturn extraction, tests with different b...
Space charge is typically one of the performance limitations for the operation of high intensity and...
During the commissioning of the CERN Proton Synchrotron multiturn extraction, tests with different b...
Space charge produces a large incoherent tune-spread which, in presence of betatronic resonances, co...
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
Space charge presents a fundamental limitation to high intensity circular accelerators. Its effects ...
Coupling impedances and wakefields are fundamental quantities to characterize the electromagnetic in...
The Montague resonance provides a coupling between the vertical and the horizontal dynamics of beam...
The acceptance of the KEK booster has large side value (272 π mm mrad in the horizontal plane and 61...
A benchmarking experiment with a high intensity bunched beam stored for 1.2 s in a nonlinear lattice...
The proposed Mu2e experiment to search for direct {mu} {yields} e conversion at Fermilab plans slow,...
High intensity proton synchrotrons provide beams for several types of facility around the world, inc...
High intensity proton synchrotrons provide beams for several types of facility around the world, inc...
The CERN Proton Synchrotron (PS) determines the basic bunch spacing for the Large Hadron Collider (L...
The combined effect of space charge and nonlinear resonance on beam loss and emittance was measured ...
During the commissioning of the CERN Proton Synchrotron multiturn extraction, tests with different b...
Space charge is typically one of the performance limitations for the operation of high intensity and...
During the commissioning of the CERN Proton Synchrotron multiturn extraction, tests with different b...
Space charge produces a large incoherent tune-spread which, in presence of betatronic resonances, co...
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
Space charge presents a fundamental limitation to high intensity circular accelerators. Its effects ...
Coupling impedances and wakefields are fundamental quantities to characterize the electromagnetic in...