summary - hep.princeton.eduhep.princeton.edu/mumu/johnson/all-figs.pdf · title: summary.doc...
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Muon Collider Targetry WorkshopPrinceton University, Feb. 27, 1998
Experience with High Flux Targets - Summary of presentationColin Johnson, CERN
The AA/ACOL antiproton production target received 26 GeV protonbeams of around 1 x 1013 protons per pulse at a repetition rate of0.42 Hz (i.e. 1/200 of the mean power of the proton driver for the pionproduction target)
AA/ACOL production targets. The AA/ACOL target/Li-lensassemblies are shown in the first 4 transparencies. This ACOL targetincorporated several years of R&D studies, some resulting incatastrophic damage. The target lifetime of this version (from 1988onwards) was effectively unlimited.
The Mercury Jet target. This was a laboratory experiment to testthe feasibility of liquid jet targets. Some constructional details arepresented together with computer enhanced photographs of theexperiment - 4 transparencies. REXCO hydrodynamic shocksimulations of a proton beam hitting a mercury target, i) containedwithin a stainless steel tube, and ii) in the form of a jet in vacuum,have been worked up from hitherto neglected runs by A. Poncet andare presented - 3 transparencies.
Radioactivity and radiation issues. With high-flux targetrycomes the problems of radiation damage and induced activity. Agreat deal of effort went into studying and documenting ourexperience - mainly the work of A. Sullivan. Our empirical formulaehave been applied to the pion production target and capturesolenoids - 3 transparencies.
Slurry jet targetry. This turns out to be more difficult than Ihad imagined. High-density slurries are very viscous due to effects atthe microscopic level: irregular grain shapes and grain-to-grainbonding. A relatively low-viscosity slurry was achieved by mixingWSe2 with water, but the density was no higher than 4 g cm-3
- 1 transparency.
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AA target - horn assembly with water cooled collimators
target magnetic horn
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ACOL target - lithium lens assembly
target
Li lens
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ACOL antiproton production target
Titanium alloy body
beam
cooling water
Iridium targetclad in nickel
Design issues:
Shock wave damage - radial acousticimpedance matching
Radiation induced voids - reduces density
Fatigue -container exit window at risk
graphite
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ACOL antiproton production target
titanium alloy body (IMI318)
graphite
iridium clad in nickel
alumina end plug
c.d.johnson
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Mercury jet target - laboratory installation CERN-PS-AAA. Poncet
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High-speed photographs of mercury jet target for CERN-PS-AA (laboratory tests)
4,000 frames per second, Jet speed: 20 ms-1, diameter: 3 mm, Reynold’s Number:>100,000A. Poncet
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t=0
t=2.5 µs
t=1.8 µs
t=0.6 µs
REXCO plots ofAA mercury jet
A. Poncet
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For the pion production target the water will be radioactive. Maybe a liquid metal (e.g. lead) primary cooling circuit will be preferred.
The 4 MW cooling tower for AA
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