This discussion will consider a number of points relevant to limitations, advantages and disadvantages of various arrangements of bunches in the Tevatron proton-antiproton collider. The considerations discussed here will be limited to: (a) bunch spacing symmetry and relation to the relative luminosity at B0 and D0 and the beam-beam interaction with separated beams; (b) bunch spacing constraints imposed by Main Ring RF coalescing and the optics of beam separation at B0 and D0; and (c) bunch spacing constraints imposed by injection and abort kicker timing requirements, and by the Antiproton Source RF unstacking process. 20 figs., 17 tabs
It is well established that in hadron colliders the beam-beam interaction is more harmful in the pre...
This document is a slightly expanded version of a portion of the Proton Driver design report. The Pr...
Eight tuned rf cavities have been installed and operated in the F0 straight section of the Tevatron....
In the first stage of Run II, the Tevatron will be operated with 36 bunches in each beam with bunch ...
This paper suggests a variable bunch spacing instead of a ®xed value in the SSC. This will give a hi...
Beam-beam phenomena have until now limited the beam currents and luminosity achievable in the Tevatr...
For almost a quarter of a century, the Tevatron proton-antiproton collider was the centerpiece of th...
To avoid multiple head-on collisions the proton and antiproton beams in the Tevatron move along sepa...
The longitudinal and transverse coupled-bunch instabilities of the Tevatron at Run II are addressed ...
At the Tevatron collider, we studied the feasibility of suppressing the antiproton head-on beam-beam...
Antiprotons for the Collider will be bunched in the Accumulator using a RF system (ARF4) that operat...
The three colliders operated to date have taught us a great deal about the behaviour of both bunched...
We are preparing to upgrade the Tevatron Collider from 6 to 36 bunch operation. The 36 bunches are i...
A key feature of the Tevatron upgrade is the placement of proton and anti-proton bunches on the bran...
The beam-beam interaction in the Tevatron collider sets limits on bunch intensity and luminosity. Th...
It is well established that in hadron colliders the beam-beam interaction is more harmful in the pre...
This document is a slightly expanded version of a portion of the Proton Driver design report. The Pr...
Eight tuned rf cavities have been installed and operated in the F0 straight section of the Tevatron....
In the first stage of Run II, the Tevatron will be operated with 36 bunches in each beam with bunch ...
This paper suggests a variable bunch spacing instead of a ®xed value in the SSC. This will give a hi...
Beam-beam phenomena have until now limited the beam currents and luminosity achievable in the Tevatr...
For almost a quarter of a century, the Tevatron proton-antiproton collider was the centerpiece of th...
To avoid multiple head-on collisions the proton and antiproton beams in the Tevatron move along sepa...
The longitudinal and transverse coupled-bunch instabilities of the Tevatron at Run II are addressed ...
At the Tevatron collider, we studied the feasibility of suppressing the antiproton head-on beam-beam...
Antiprotons for the Collider will be bunched in the Accumulator using a RF system (ARF4) that operat...
The three colliders operated to date have taught us a great deal about the behaviour of both bunched...
We are preparing to upgrade the Tevatron Collider from 6 to 36 bunch operation. The 36 bunches are i...
A key feature of the Tevatron upgrade is the placement of proton and anti-proton bunches on the bran...
The beam-beam interaction in the Tevatron collider sets limits on bunch intensity and luminosity. Th...
It is well established that in hadron colliders the beam-beam interaction is more harmful in the pre...
This document is a slightly expanded version of a portion of the Proton Driver design report. The Pr...
Eight tuned rf cavities have been installed and operated in the F0 straight section of the Tevatron....