Add to ORKGElectron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routinely used in the collider operation. It requires a 0.1-0.5 A, 4.3 MeV dc electron beam and is designed to increase the longitudinal phase-space density of the circulating antiproton beam. This paper briefly describes the characteristics of the electron beam that were achieved to successfully cool antiprotons. Then, results from various cooling force measurements along with comparison to a nonmagnetized model are presented. Finally, operational aspects of the implementation of electron cooling at the Recycler are discussed, such as adjustments to the cooling rate and the influence of the electron beam on the antiproton beam lifetime
The use of an electron cooling system with a circulating electron beam permits to avoid the problems...
A 4.3 MeV DC electron beam is used to cool longitudinally an antiproton beam in the Fermilab’s Recyc...
Fermilab began an R & D program in medium energy electron cooling in April 1995 with the object of c...
Abstract Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routi...
Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routinely used...
Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routinely used...
Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routinely used in t...
The 8.9-GeV/c Recycler antiproton storage ring is equipped with both stochastic and electron cooling...
Electron cooling at the proposed Recycler 8 GeV storage ring has been identified as a key element in...
The Recycler ring is an 8 GeV permanent magnet storage ring where antiprotons are accumulated and pr...
The recent demonstration of electron cooling of antiprotons in the Recycler ring required a stable 4...
Antiprotons in Fermilab's Recycler ring are cooled by a 4.3 MeV, 0.1A DC electron beam (as well as b...
A 4.3 MeV DC electron beam is used to cool longitudinally an antiproton beam in the Fermilab's Recyc...
A 0.1-0.5 A, 4.3 MeV DC electron beam provides cooling of 8 GeV antiprotons in Fermilab's Recycler s...
We report on an experimental demonstration of electron cooling of high-energy antiprotons circulatin...
The use of an electron cooling system with a circulating electron beam permits to avoid the problems...
A 4.3 MeV DC electron beam is used to cool longitudinally an antiproton beam in the Fermilab’s Recyc...
Fermilab began an R & D program in medium energy electron cooling in April 1995 with the object of c...
Abstract Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routi...
Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routinely used...
Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routinely used...
Electron cooling of 8 GeV antiprotons at Fermilab's Recycler storage ring is now routinely used in t...
The 8.9-GeV/c Recycler antiproton storage ring is equipped with both stochastic and electron cooling...
Electron cooling at the proposed Recycler 8 GeV storage ring has been identified as a key element in...
The Recycler ring is an 8 GeV permanent magnet storage ring where antiprotons are accumulated and pr...
The recent demonstration of electron cooling of antiprotons in the Recycler ring required a stable 4...
Antiprotons in Fermilab's Recycler ring are cooled by a 4.3 MeV, 0.1A DC electron beam (as well as b...
A 4.3 MeV DC electron beam is used to cool longitudinally an antiproton beam in the Fermilab's Recyc...
A 0.1-0.5 A, 4.3 MeV DC electron beam provides cooling of 8 GeV antiprotons in Fermilab's Recycler s...
We report on an experimental demonstration of electron cooling of high-energy antiprotons circulatin...
The use of an electron cooling system with a circulating electron beam permits to avoid the problems...
A 4.3 MeV DC electron beam is used to cool longitudinally an antiproton beam in the Fermilab’s Recyc...
Fermilab began an R & D program in medium energy electron cooling in April 1995 with the object of c...