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Citation counts use data from CrossRef as provided by the publishers of the citing articles.
❖ 2005 and later content is hosted outside of PROLA.
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Vladimir Shiltsev, Kip Bishofberger, Vsevolod Kamerdzhiev, Sergei Kozub, Matthew Kufer, Gennady Kuznetsov, Alexander Martinez, Marvin Olson, Howard Pfeffer, Greg Saewert, Vic Scarpine, Andrey Seryi, Nikolai Solyak, Veniamin Sytnik, Mikhail Tiunov, Leonid Tkachenko, David Wildman, Daniel Wolff, and Xiao-Long Zhang
Show Abstract
The beam-beam effects have been the dominating sources of beam loss and lifetime limitations in the Tevatron proton-antiproton collider [V. Shiltsev , Phys. Rev. ST Accel. Beams 8, 101001 (2005)]. Electron lenses were originally proposed for compensation of electromagnetic long-range and head-on beam-beam interactions of proton and antiproton beams [V. Shiltsev , Phys. Rev. ST Accel. Beams 2, 071001 (1999).]. Results of successful employment of two electron lenses built and installed in the Tevatron are reported by Shiltsev et al. [Phys. Rev. Lett. 99, 244801 (2007); New J. Phys. 10, 043042 (2008)] and by Zhang et al. [X.-L. Zhang , Phys. Rev. ST Accel. Beams 11, 051002 (2008)]. In this paper we present design features of the Tevatron electron lenses (TELs), discuss the generation of electron beams, describe different modes of operation, and outline the technical parameters of various subsystems.
Phys. Rev. ST Accel. Beams 11, 103501 (2008)
Cited 0 times
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Xiao-Long Zhang, Kip Bishofberger, Vsevolod Kamerdzhiev, Valery Lebedev, Vladimir Shiltsev, Randy Thurman-Keup, and Alvin Tollestrup
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In the collider run II, the Tevatron operates with 36 high intensity bunches of 980 GeV protons and antiprotons. Particles not captured by the Tevatron rf system pose a threat since they can quench the superconducting magnets during acceleration or at beam abort. We describe the main mechanisms for the origination of this uncaptured beam, and present measurements of its main parameters by means of a newly developed diagnostics system. The Tevatron electron lens is effectively used in the collider run II operation to remove uncaptured beam and keep its intensity in the abort gaps at a safe level.
Phys. Rev. ST Accel. Beams 11, 051002 (2008)
Cited 1 times
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V. Shiltsev, Y. Alexahin, K. Bishofberger, V. Kamerdzhiev, G. Kuznetsov, and X.-L. Zhang
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We report the successful application of space-charge forces of a low-energy electron beam for improvement of particle lifetime determined by beam-beam interaction at a high-energy collider. In our experiments, an electron lens, a novel instrument developed for the beam-beam compensation, was set on a 980-GeV proton bunch at the Fermilab Tevatron proton-antiproton collider. The proton-bunch losses due to its interaction with the antiproton beam were reduced by a factor of 2 when the electron lens was operating. We describe the principle of electron lens operation and present experimental results.
Phys. Rev. Lett. 99, 244801 (2007)
Cited 2 times
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