Add to ORKGAn Electron Lens (E-Lens) system will be installed in RHIC to increase luminosity by counteracting the head-on beam-beam interaction. The proton beam collisions at the RHIC experimental locations will introduce a tune spread due to a difference of tune shifts between small and large amplitude particles. A low energy electron beam will be used to improve luminosity and lifetime of the colliding beams by reducing the betatron tune shift and spread. In preparation for the Electron Lens installation next year, a test bench facility will be used to gain experience with many sub-systems. This paper will discuss the diagnostics related to measuring the electron beam parameters
Installation of electron lenses for the purpose of head-on beam-beam compensation is foreseen at RHI...
In this note we summarize the calculated 10{sup 6} turn dynamic apertures with the proposed head-on ...
We are designing two electron lenses (E-lens) to compensate for the large beam-beam tune spread from...
To compensate for the beam-beam effects from the proton-proton interactions at IP6 and IP8 in the Re...
To compensate for the beam-beam effects from the proton-proton interactions at IP6 and IP8 in the Re...
International audienceTwo electron lenses (e-lenses) have been in operation during the 2015 RHIC phy...
A hollow electron lens system is presently under development as part of the collimation upgrade for ...
Two electron lenses are under construction for RHIC to partially compensate the head-on beam-beam ef...
A test stand is under construction at CERN to study high perveance electron guns, electron beam dyna...
To apply head-on beam-beam compensation for RHIC, two electron lenses are designed and will be insta...
Beam experiments have been performed in RHIC to determine some key parameters of the RHIC electron l...
Abstract. Electron lenses are pulsed, magnetically confined electron beams whose current-density pro...
The hollow electron lens (e-lens) is a very powerful and advanced tool for active control of diffusi...
In this note we calculate the effect of the electron lense solenoids on the proton optics. Electron ...
An electron lens for head-on beam-beam compensation planned for RHIC requires precise overlap of the...
Installation of electron lenses for the purpose of head-on beam-beam compensation is foreseen at RHI...
In this note we summarize the calculated 10{sup 6} turn dynamic apertures with the proposed head-on ...
We are designing two electron lenses (E-lens) to compensate for the large beam-beam tune spread from...
To compensate for the beam-beam effects from the proton-proton interactions at IP6 and IP8 in the Re...
To compensate for the beam-beam effects from the proton-proton interactions at IP6 and IP8 in the Re...
International audienceTwo electron lenses (e-lenses) have been in operation during the 2015 RHIC phy...
A hollow electron lens system is presently under development as part of the collimation upgrade for ...
Two electron lenses are under construction for RHIC to partially compensate the head-on beam-beam ef...
A test stand is under construction at CERN to study high perveance electron guns, electron beam dyna...
To apply head-on beam-beam compensation for RHIC, two electron lenses are designed and will be insta...
Beam experiments have been performed in RHIC to determine some key parameters of the RHIC electron l...
Abstract. Electron lenses are pulsed, magnetically confined electron beams whose current-density pro...
The hollow electron lens (e-lens) is a very powerful and advanced tool for active control of diffusi...
In this note we calculate the effect of the electron lense solenoids on the proton optics. Electron ...
An electron lens for head-on beam-beam compensation planned for RHIC requires precise overlap of the...
Installation of electron lenses for the purpose of head-on beam-beam compensation is foreseen at RHI...
In this note we summarize the calculated 10{sup 6} turn dynamic apertures with the proposed head-on ...
We are designing two electron lenses (E-lens) to compensate for the large beam-beam tune spread from...