Protons and anti-protons circulate on helical orbits in the Tevatron. At injection energy (150 GeV) the lifetimes of both species are significantly lower on the helical orbits compared to lifetimes on the central orbit but for different reasons. There are also significant beam losses in both beams when they are accelerated to top energy (980 GeV) again for different reasons. They report on experimental studies to determine the reasons and on methods of improving the lifetimes and losses for both beams
In this paper we report on a systematic study of antiproton lifetime at the injection energy of 150 ...
The project of beam-beam compensation (BBC) in the Tevatron using electron beams [1] has passed a su...
The performance of Fermilab's Tevatron accelerator, currently in its Run II stage, is degraded by be...
Beam-beam phenomena have until now limited the beam currents and luminosity achievable in the Tevatr...
Long-range beam-beam effects occurred in the Tevatron at all stages (injection, ramp, squeeze, and c...
The Tevatron in Collider Run II (2001-present) is operating with 6 times more bunches, many times hi...
The beam-beam effect is a significant source of nonlinearities in the Tevatron. We have developed a ...
To avoid multiple head-on collisions the proton and antiproton beams in the Tevatron move along sepa...
Abstract The beam-beam effects have been the dominating sources of beam loss and lifetime limitation...
For almost a quarter of a century, the Tevatron proton-antiproton collider was the centerpiece of th...
Major issues at Tevatron injection are the effects of 72 long-range beam-beam interactions together ...
The long-range beam-beam interactions limit the achievable luminosity in the Tevatron. During the pa...
During a dedicated machine study on December 3-4, 2002, we measured the chromaticities, the proton b...
At the Fermilab Tevatron collider, we studied the feasibility of suppressing the antiproton head-on ...
In this paper we report on a systematic study of antiproton lifetime at the injection energy of 150...
In this paper we report on a systematic study of antiproton lifetime at the injection energy of 150 ...
The project of beam-beam compensation (BBC) in the Tevatron using electron beams [1] has passed a su...
The performance of Fermilab's Tevatron accelerator, currently in its Run II stage, is degraded by be...
Beam-beam phenomena have until now limited the beam currents and luminosity achievable in the Tevatr...
Long-range beam-beam effects occurred in the Tevatron at all stages (injection, ramp, squeeze, and c...
The Tevatron in Collider Run II (2001-present) is operating with 6 times more bunches, many times hi...
The beam-beam effect is a significant source of nonlinearities in the Tevatron. We have developed a ...
To avoid multiple head-on collisions the proton and antiproton beams in the Tevatron move along sepa...
Abstract The beam-beam effects have been the dominating sources of beam loss and lifetime limitation...
For almost a quarter of a century, the Tevatron proton-antiproton collider was the centerpiece of th...
Major issues at Tevatron injection are the effects of 72 long-range beam-beam interactions together ...
The long-range beam-beam interactions limit the achievable luminosity in the Tevatron. During the pa...
During a dedicated machine study on December 3-4, 2002, we measured the chromaticities, the proton b...
At the Fermilab Tevatron collider, we studied the feasibility of suppressing the antiproton head-on ...
In this paper we report on a systematic study of antiproton lifetime at the injection energy of 150...
In this paper we report on a systematic study of antiproton lifetime at the injection energy of 150 ...
The project of beam-beam compensation (BBC) in the Tevatron using electron beams [1] has passed a su...
The performance of Fermilab's Tevatron accelerator, currently in its Run II stage, is degraded by be...