The Tevatron in Run IIa will operate with three trains of twelve bunches each. The impact of the long-range interactions on beam stability will be more significant compared to Run I. We study these beam-beam interactions (head-on and long-range) with particle tracking using two different codes. The model includes machine nonlinearities such as the field errors of the Interaction Region quadrupoles and the chromaticity sextupoles. Tune footprints and dynamic apertures are calculated for different bunches in a train
The beam-beam effect is a significant source of nonlinearities in the Tevatron. We have developed a ...
The longitudinal and transverse coupled-bunch instabilities of the Tevatron at Run II are addressed ...
This thesis describes an accelerator physics experiment (E778) performed in the Fermilab Tevatron to...
The Tevatron in Run II is operating with three trains of 12 bunches each. Long-range beam-beam inter...
This report summarizes studies of long-range collisions and their compensation by current carrying w...
The dynamics due to the long-range beam-beam interactions depends on several beam parameters such as...
The Tevatron in Collider Run II (2001-present) is operating with 6 times more bunches, many times hi...
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...
Before the Tevatron Collider Run II ended in September of 2011, a number of specialized beam study ...
The Fermilab accelerator complex is in the middle of an upgrade plan Fermilab III. In the last phase...
We present validation and results from a simulation of the Fermilab Tevatron including multiple beam...
Long-range beam-beam effects occurred in the Tevatron at all stages (injection, ramp, squeeze, and c...
In the first stage of Run II, the Tevatron will be operated with 36 bunches in each beam with bunch ...
We are preparing to upgrade the Tevatron Collider from 6 to 36 bunch operation. The 36 bunches are i...
The beam-beam effect is a significant source of nonlinearities in the Tevatron. We have developed a ...
The longitudinal and transverse coupled-bunch instabilities of the Tevatron at Run II are addressed ...
This thesis describes an accelerator physics experiment (E778) performed in the Fermilab Tevatron to...
The Tevatron in Run II is operating with three trains of 12 bunches each. Long-range beam-beam inter...
This report summarizes studies of long-range collisions and their compensation by current carrying w...
The dynamics due to the long-range beam-beam interactions depends on several beam parameters such as...
The Tevatron in Collider Run II (2001-present) is operating with 6 times more bunches, many times hi...
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...
Before the Tevatron Collider Run II ended in September of 2011, a number of specialized beam study ...
The Fermilab accelerator complex is in the middle of an upgrade plan Fermilab III. In the last phase...
We present validation and results from a simulation of the Fermilab Tevatron including multiple beam...
Long-range beam-beam effects occurred in the Tevatron at all stages (injection, ramp, squeeze, and c...
In the first stage of Run II, the Tevatron will be operated with 36 bunches in each beam with bunch ...
We are preparing to upgrade the Tevatron Collider from 6 to 36 bunch operation. The 36 bunches are i...
The beam-beam effect is a significant source of nonlinearities in the Tevatron. We have developed a ...
The longitudinal and transverse coupled-bunch instabilities of the Tevatron at Run II are addressed ...
This thesis describes an accelerator physics experiment (E778) performed in the Fermilab Tevatron to...