The LHCb trigger and its performance in 2011

R Aaij; J Albrecht; F Alessio; S Amato; E Aslanides; I Belyaev; M van Beuzekom; E Bonaccorsi; R Bonnefoy; L Brarda; O Callot; M Cattaneo; H Chanal; M Chebbi; X Cid Vidal; M Clemencic; J Closier; V Coco; J Cogan; O Deschamps; H Dijkstra; C Drancourt; R Dzhelyadin; M Frank; M Gandelman; C Gaspar; V V Gligorov; C Göbel; L A Granado Cardoso; Yu Guz; C Haen; J He; E van Herwijnen; W Hulsbergen; R Jacobsson; B Jost; T M Karbach; U Kerzel; P Koppenburg; G Krocker; C Langenbruch; I Lax; R Le Gac; R Lefèvre; J Lefrançois; O Leroy; L Li Gioi; G Liu; F Machefert; I V Machikhiliyan; M Magne; G Mancinelli; U Marconi; A Martín Sánchez; M -N Minard; S Monteil; N Neufeld; V Niess; S Oggero; A Pérez-Calero Yzquierdo; P Perret; M Perrin-Terrin; B Pietrzyk; A Puig Navarro; G Raven; P Robbe; H Ruiz; M -H Schune; R Schwemmer; J Serrano; I Shapoval; T Skwarnicki; B Souza De Paula; P Spradlin; S Stahl; V K Subbiah; S T'Jampens; F Teubert; C Thomas; M Vesterinen; M Williams; M Witek; A Zvyagin

doi:10.1088/1748-0221/8/04/P04022

Journal of Instrumentation

The LHCb trigger and its performance in 2011

R Aaij¹⁵, J Albrecht¹³, F Alessio¹³, S Amato¹, E Aslanides⁴, I Belyaev⁹, M van Beuzekom¹⁵, E Bonaccorsi¹³, R Bonnefoy³, L Brarda¹³, O Callot⁵, M Cattaneo¹³, H Chanal³, M Chebbi¹³, X Cid Vidal¹², M Clemencic¹³, J Closier¹³, V Coco¹⁵, J Cogan⁴, O Deschamps³, H Dijkstra¹³, C Drancourt², R Dzhelyadin¹⁰, M Frank¹³, M Gandelman¹, C Gaspar¹³, V V Gligorov¹³, C Göbel²², L A Granado Cardoso¹³, Yu Guz¹⁰, C Haen¹³, J He⁵, E van Herwijnen¹³, W Hulsbergen¹⁵, R Jacobsson¹³, B Jost¹³, T M Karbach¹³, U Kerzel¹³, P Koppenburg¹⁵, G Krocker⁶, C Langenbruch¹³, I Lax⁷, R Le Gac⁴, R Lefèvre³, J Lefrançois⁵, O Leroy⁴, L Li Gioi³, G Liu¹³, F Machefert⁵, I V Machikhiliyan^2,9, M Magne³, G Mancinelli⁴, U Marconi⁷, A Martín Sánchez⁵, M -N Minard², S Monteil³, N Neufeld¹³, V Niess³, S Oggero¹⁵, A Pérez-Calero Yzquierdo¹¹, P Perret³, M Perrin-Terrin⁴, B Pietrzyk², A Puig Navarro¹⁴, G Raven¹⁶, P Robbe⁵, H Ruiz¹¹, M -H Schune⁵, R Schwemmer¹³, J Serrano⁴, I Shapoval^13,17, T Skwarnicki²¹, B Souza De Paula¹, P Spradlin¹⁸, S Stahl⁶, V K Subbiah¹³, S T'Jampens², F Teubert¹³, C Thomas²⁰, M Vesterinen¹³, M Williams^19,23, M Witek⁸ and A Zvyagin¹³

Published 22 April 2013 • Published under licence by IOP Publishing Ltd
Journal of Instrumentation, Volume 8, April 2013 Citation R Aaij et al 2013 JINST 8 P04022 DOI 10.1088/1748-0221/8/04/P04022

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¹ Universidade Federal do Rio de Janeiro (UFRJ), Rio de Janeiro, Brazil

² LAPP, Université de Savoie, CNRS/IN2P3, Annecy-Le-Vieux, France

³ Clermont Université, Université Blaise Pascal, CNRS/IN2P3, LPC, Clermont-Ferrand, France

⁴ CPPM, Aix-Marseille Université, CNRS/IN2P3, Marseille, France

⁵ LAL, Université Paris-Sud, CNRS/IN2P3, Orsay, France

⁶ Physikalisches Institut, Ruprecht-Karls-Universität Heidelberg, Heidelberg, Germany

⁷ Sezione INFN di Bologna, Bologna, Italy

⁸ Henryk Niewodniczanski Institute of Nuclear Physics, Polish Academy of Sciences, Kraków, Poland

⁹ Institute of Theoretical and Experimental Physics (ITEP), Moscow, Russia

¹⁰ Institute for High Energy Physics (IHEP), Protvino, Russia

¹¹ Universitat de Barcelona, Barcelona, Spain

¹² Universidad de Santiago de Compostela, Santiago de Compostela, Spain

¹³ European Organization for Nuclear Research (CERN), Geneva, Switzerland

¹⁴ Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland

¹⁵ Nikhef National Institute for Subatomic Physics, Amsterdam, The Netherlands

¹⁶ Nikhef National Institute for Subatomic Physics and VU University Amsterdam, Amsterdam, The Netherlands

¹⁷ NSC Kharkiv Institute of Physics and Technology (NSC KIPT), Kharkiv, Ukraine

¹⁸ School of Physics and Astronomy, University of Glasgow, Glasgow, United Kingdom

¹⁹ Imperial College London, London, United Kingdom

²⁰ Department of Physics, University of Oxford, Oxford, United Kingdom

²¹ Syracuse University, Syracuse, NY, United States

²² Pontifícia Universidade Católica do Rio de Janeiro (PUC-Rio), Rio de Janeiro, Brazil

²³ Massachusetts Institute of Technology, Cambridge, MA, United States

Dates

Received 14 November 2012
Accepted 29 March 2013
Published 22 April 2013

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Abstract

This paper presents the design of the LHCb trigger and its performance on data taken at the LHC in 2011. A principal goal of LHCb is to perform flavour physics measurements, and the trigger is designed to distinguish charm and beauty decays from the light quark background. Using a combination of lepton identification and measurements of the particles' transverse momenta the trigger selects particles originating from charm and beauty hadrons, which typically fly a finite distance before decaying. The trigger reduces the roughly 11 MHz of bunch-bunch crossings that contain at least one inelastic pp interaction to 3 kHz. This reduction takes place in two stages; the first stage is implemented in hardware and the second stage is a software application that runs on a large computer farm. A data-driven method is used to evaluate the performance of the trigger on several charm and beauty decay modes.

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