Add to ORKGChromaticity control in the Fermilab Main Injector will be important both in accelerating protons and antiprotons from 8 GeV to 150 GeV (or 120 GeV) and in decelerating recycled 150 GeV antiprotons to 8 GeV for storage in the Recycler Ring. The Main Injector has two families of sextupoles to control the chromaticity. In addition to the natural chromaticity, they must correct for sextupole fields from ramp-rate-dependent eddy currents in the dipole beampipes and current-dependent sextupole fields in the dipole magnets. The horizontal sextupole family is required to operate in a bipolar mode below the transition energy of 20 GeV. We describe methods used to control chromaticities in the Fermilab Main Injector. Emphasis is given to the softwar...
The AP2 beamline at Fermilab transports anti-protons from the production target to the Debuncher ri...
The chromaticity produced by the insertions and the lattice of LEP is corrected in the FODO lattice ...
Local chromaticity correction of a low-beta region can under certain conditions enhance the momentum...
The Fermilab Main Injector (FMI) is a high intensity proton synchrotron which will be used to accele...
The Fermilab Main Injector (MI) will accelerate (deceler-ate) protons and anti-protons from 8.9 GeV/...
Although the dominant fields in accelerator electromagnets are proportional to the excitation curren...
Although the dominant fields in accelerator electromagnets are proportional to the excitation curren...
The MAX IV facility currently under construction in Lund, Sweden will include a 1.5 GeV storage ring...
The MAX IV facility currently under construction in Lund, Sweden will include a 1.5 GeV storage ring...
Since its initial operation over 30 years ago, most correction magnets in the Fermilab Booster Synch...
The details of a tuning algorithm are described for minimizing the chromatic error in a final focus ...
Turn-by-turn data from a single BPM includes information on the chromaticity in sidebands displaced ...
To better control the beam position, tune, and chromaticity in the Fermilab Booster synchrotron, a n...
RHIC operated at energies below the nominal ion injection energy of E=9.8 GeV/u in 2010. Earlier tes...
Optics parameters such as betatron tunes, beta functions, and dispersions depend on momentum deviati...
The AP2 beamline at Fermilab transports anti-protons from the production target to the Debuncher ri...
The chromaticity produced by the insertions and the lattice of LEP is corrected in the FODO lattice ...
Local chromaticity correction of a low-beta region can under certain conditions enhance the momentum...
The Fermilab Main Injector (FMI) is a high intensity proton synchrotron which will be used to accele...
The Fermilab Main Injector (MI) will accelerate (deceler-ate) protons and anti-protons from 8.9 GeV/...
Although the dominant fields in accelerator electromagnets are proportional to the excitation curren...
Although the dominant fields in accelerator electromagnets are proportional to the excitation curren...
The MAX IV facility currently under construction in Lund, Sweden will include a 1.5 GeV storage ring...
The MAX IV facility currently under construction in Lund, Sweden will include a 1.5 GeV storage ring...
Since its initial operation over 30 years ago, most correction magnets in the Fermilab Booster Synch...
The details of a tuning algorithm are described for minimizing the chromatic error in a final focus ...
Turn-by-turn data from a single BPM includes information on the chromaticity in sidebands displaced ...
To better control the beam position, tune, and chromaticity in the Fermilab Booster synchrotron, a n...
RHIC operated at energies below the nominal ion injection energy of E=9.8 GeV/u in 2010. Earlier tes...
Optics parameters such as betatron tunes, beta functions, and dispersions depend on momentum deviati...
The AP2 beamline at Fermilab transports anti-protons from the production target to the Debuncher ri...
The chromaticity produced by the insertions and the lattice of LEP is corrected in the FODO lattice ...
Local chromaticity correction of a low-beta region can under certain conditions enhance the momentum...