Results from an on-line non-leptonic neural trigger implemented in an experiment looking for beauty

Results from a non-leptonic neural-network trigger hosted by experiment WA92, looking for beauty particle production from 350 GeV negative pions on a fixed Cu target, are presented. The neural trigger has been used to send events selected by means of a non-leptonic signature based on microvertex det...

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Published in:Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Accelerators, spectrometers, detectors and associated equipment, 1995, Vol.361 (3), p.506-518
Main Authors: Baldanza, C, Bisi, F, Cotta-Ramusino, A, D'Antone, I, Malferrari, L, Mazzanti, P, Odorici, F, Odorico, R, Zuffa, M, Bruschini, C, Musico, P, Novelli, P, Passaseo, M
Format: Article
Language:English
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Summary:Results from a non-leptonic neural-network trigger hosted by experiment WA92, looking for beauty particle production from 350 GeV negative pions on a fixed Cu target, are presented. The neural trigger has been used to send events selected by means of a non-leptonic signature based on microvertex detector information to a special data stream, meant for early analysis. The non-leptonic signature, defined in a neural-network fashion, was devised so as to enrich the selected sample in the number of events containing C3 secondary vertices (i.e., vertices having three tracks with sum of electric charges equal to +1 or −1), which are sought for further analysis to identify charm and beauty non-leptonic decays. The neural trigger module consists of a VME crate hosting two MA16 digital neural chips from Siemens and two ETANN analog neural chips from Intel. During the experimental run, only the ETANN chips were operational. The neural trigger operated for two continuous weeks during the WA92 1993 run. For an acceptance of 15% for C3 events, the neural trigger yields a C3 enrichment factor of 6.6–7.1 (depending on the event sample considered), which multiplied by that already provided by the standard trigger leads to a global C3 enrichment factor of ∼ 150. In the event sample selected by the neural trigger, one every ∼ 7 events contains a C3 vertex. The response time of the neural trigger module is 5.8 μs.
ISSN:0168-9002
1872-9576
DOI:10.1016/0168-9002(95)00211-1