Abstract
A super collider transverse feedback system designed to suppress injection errors, emittance growth due to external noises, and beam instabilities is considered. It is supposed that the feedback system should consist of two circuits: an injection damper operating just after injection and a super damper. To damp the emittance growth, the superdamper has to operate with the ultimate decrement close to the revolution frequency. The physics of such a feedback system and its main limitations are discussed. 9 refs.; 21 figs.; 1 tab.
Citation Formats
Lebedev, V A.
The super collider transverse feedback system for suppression of the emittance growth and beam instabilities.
Russian Federation: N. p.,
1993.
Web.
Lebedev, V A.
The super collider transverse feedback system for suppression of the emittance growth and beam instabilities.
Russian Federation.
Lebedev, V A.
1993.
"The super collider transverse feedback system for suppression of the emittance growth and beam instabilities."
Russian Federation.
@misc{etde_10102747,
title = {The super collider transverse feedback system for suppression of the emittance growth and beam instabilities}
author = {Lebedev, V A}
abstractNote = {A super collider transverse feedback system designed to suppress injection errors, emittance growth due to external noises, and beam instabilities is considered. It is supposed that the feedback system should consist of two circuits: an injection damper operating just after injection and a super damper. To damp the emittance growth, the superdamper has to operate with the ultimate decrement close to the revolution frequency. The physics of such a feedback system and its main limitations are discussed. 9 refs.; 21 figs.; 1 tab.}
place = {Russian Federation}
year = {1993}
month = {Dec}
}
title = {The super collider transverse feedback system for suppression of the emittance growth and beam instabilities}
author = {Lebedev, V A}
abstractNote = {A super collider transverse feedback system designed to suppress injection errors, emittance growth due to external noises, and beam instabilities is considered. It is supposed that the feedback system should consist of two circuits: an injection damper operating just after injection and a super damper. To damp the emittance growth, the superdamper has to operate with the ultimate decrement close to the revolution frequency. The physics of such a feedback system and its main limitations are discussed. 9 refs.; 21 figs.; 1 tab.}
place = {Russian Federation}
year = {1993}
month = {Dec}
}