UA5 experiment
The UA5 experiment was the first experiment conducted at the Proton-Antiproton Collider (SppS), a collider using the infrastructure of the Super Proton Synchrotron (SPS). The experiment was approved in February 1979, as a collaboration between CERN and the universities of Bonn, Brussels, Cambridge and Stockholm.[1] The spokesperson of the UA5 collaboration was John Rushbrooke.[2]
The object of the experiment was to investigate Centauro events[1] and more generally to perform a first rapid visual survey of the energy region afforded by the then new SPS collider.[3] Measurements were done on proton-antiproton collisions of 540 GeV center-of-mass energy, with the results being published in November 1983.[4] Later, under the name of UA5/2, data was recorded from 900 GeV collisions.[5] No indication of Centauro production was observed, but an upper limit on the production was obtained.[5]
The experimental setup consisted of two large streamer chambers which were placed above and below the SppS beam pipe. The chambers were triggered by requiring hits in scintillation counters at each end. This trigger rejected essentially all elastic and diffractive elements.[4] The streamer chamber tracks were photographed by six cameras, and the tracks were measured, reconstructed and analyzed.
References
- Goldchmidt-Clermont, Y. (15 February 1979). "Decisions of the 32nd Meeting of the Research Board" (PDF). CERN Document Server. Retrieved 18 July 2017.
- "UA5". CERN Greybook. CERN. Retrieved 18 July 2017.
- Rushbrooke, John (1981). "The UA5 Streamer Chamber Experiment at the SPS p-pbar Collider". Physica Scripta. 23 (4B): 642–648. Bibcode:1981PhyS...23..642B. doi:10.1088/0031-8949/23/4B/006.
- Alpgård, K.; et al. (January 1983). "Particle multiplicities in interactions at √s=540 GeV" (PDF). Physics Letters B. 121 (2–3): 209–215. Bibcode:1983PhLB..121..209A. doi:10.1016/0370-2693(83)90916-4.
- Geich-Gimbel, Ch. (9 July 1984). Results from the UA5 Experiment at the CERN pp-collider (PDF). VIIth European Symposium on Antiproton Interaction. Durham, UK: Bonn University.