Add to ORKGThe Fermilab Booster is a bottleneck limiting the proton beam intensity in the accelerator complex. A study group has been formed in order to have a better understanding of this old machine and seek possible improvements. The work includes lattice modeling, numerical simulations, bench measurements and beam studies. Based on newly obtained information, it has been found that the machine acceptance is severely compromised by the orbit bump and dogleg magnets. This, accompanied by emittance dilution from space charge at injection, is a major cause of the large beam loss at the early stage of the cycle. Measures to tackle this problem are being pursued
Attempts to measure and describe beam instabilities have been made ever since they were first observ...
The purpose of this note is to examine the likelihood and problems associated with operation of the ...
Space-charge effects on beam stabilities are studied for the proposed two-ring high-intensity Fermil...
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
We will describe measurements of the beam in the Fermilab Booster during the first five milliseconds...
The Fermilab Booster is an important testing ground for our understanding of space-charge e®ects in ...
Beam loss reduction and control challenges confronting the Fermilab Booster are presented in the con...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
Simulations of the Fermilab Booster reveal a sub-stantial electron-cloud buildup both inside the uns...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
For Project X, the Fermilab Main Injector will be required to operate with 3 times higher bunch inte...
In Part I, three independent models of Fermilab's Booster synchrotron are presented. All three model...
A report on the challenges confronting the Fermilab Linac and Booster accelerators is presented. Pla...
The stable region of the Fermilab Booster beam in the complex coherent-tune-shift plane appears to h...
Issues concerning beam stability of the proposed Fermilab Proton Driver are studied in its Phase I. ...
Attempts to measure and describe beam instabilities have been made ever since they were first observ...
The purpose of this note is to examine the likelihood and problems associated with operation of the ...
Space-charge effects on beam stabilities are studied for the proposed two-ring high-intensity Fermil...
The Fermilab Booster is a nearly 40-year-old proton synchrotron, designed to accelerate injected pro...
We will describe measurements of the beam in the Fermilab Booster during the first five milliseconds...
The Fermilab Booster is an important testing ground for our understanding of space-charge e®ects in ...
Beam loss reduction and control challenges confronting the Fermilab Booster are presented in the con...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
Simulations of the Fermilab Booster reveal a sub-stantial electron-cloud buildup both inside the uns...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
For Project X, the Fermilab Main Injector will be required to operate with 3 times higher bunch inte...
In Part I, three independent models of Fermilab's Booster synchrotron are presented. All three model...
A report on the challenges confronting the Fermilab Linac and Booster accelerators is presented. Pla...
The stable region of the Fermilab Booster beam in the complex coherent-tune-shift plane appears to h...
Issues concerning beam stability of the proposed Fermilab Proton Driver are studied in its Phase I. ...
Attempts to measure and describe beam instabilities have been made ever since they were first observ...
The purpose of this note is to examine the likelihood and problems associated with operation of the ...
Space-charge effects on beam stabilities are studied for the proposed two-ring high-intensity Fermil...