Proton Extraction and Transport for Pbar Production in Tevatron I

The design, fabrication, and commissioning of the extraction and beam transport systems required for pbar production for the FNAL Antiproton Source will be described. The extraction system utilizes a fast kicker and Lambertson septum magnets to extract in a single turn one booster batch of 120 GeV p...

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Published in:IEEE transactions on nuclear science 1985-10, Vol.32 (5), p.3009-3011
Main Authors: Dugan, G., Harrison, M., Johnson, D., Dinkel, J., Krafczyk, G., May, M., Merz, W., McCarthy, J., Tilles, E.
Format: Article
Language:English
Subjects:
Bandwidth
Batch production systems
Educational institutions
Fabrication
Magnets
Orbits
Particle beam injection
Particle beams
Protons
Testing
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container_end_page 3011
container_issue 5
container_start_page 3009
container_title IEEE transactions on nuclear science
container_volume 32
creator Dugan, G.
Harrison, M.
Johnson, D.
Dinkel, J.
Krafczyk, G.
May, M.
Merz, W.
McCarthy, J.
Tilles, E.
description The design, fabrication, and commissioning of the extraction and beam transport systems required for pbar production for the FNAL Antiproton Source will be described. The extraction system utilizes a fast kicker and Lambertson septum magnets to extract in a single turn one booster batch of 120 GeV protons from the FNAL Main Ring. The extracted beam is transported a distance of 174 m by a beam transport system consisting of 12 dipoles and 14 quadrupoles. The last 8 quadrupoles are configured as 4 pairs which focus the beam to a small round spot (radius 0.4 mm) on a pbar production target. The extraction channel is also designed to inject 8 GeV cooled pbars from the Accumulator Ring into the Main Ring, or extract 8 GeV protons from the Main Ring for diagnostic and tune-up work in the Antiproton Source beam lines and rings.
doi_str_mv 10.1109/TNS.1985.4334257
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subjects Bandwidth
Batch production systems
Educational institutions
Fabrication
Magnets
Orbits
Particle beam injection
Particle beams
Protons
Testing
title Proton Extraction and Transport for Pbar Production in Tevatron I
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