ColliderBit: a GAMBIT module for the calculation of high-energy collider observables and likelihoods |
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| Authors: | The GAMBIT Scanner Workgroup: Csaba Balázs Andy Buckley Lars A. Dal Ben Farmer Paul Jackson Abram Krislock Anders Kvellestad Daniel Murnane Antje Putze Are Raklev Christopher Rogan Aldo Saavedra Pat Scott Christoph Weniger Martin White |
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| Affiliation: | 1.School of Physics and Astronomy,Monash University,Melbourne,Australia;2.Australian Research Council Centre of Excellence for Particle Physics at the Tera-scale, Australia,http://www.coepp.org.au/;3.SUPA, School of Physics and Astronomy,University of Glasgow,Glasgow,UK;4.Department of Physics,University of Oslo,Oslo,Norway;5.Oskar Klein Centre for Cosmoparticle Physics,AlbaNova University Centre,Stockholm,Sweden;6.Department of Physics,University of Adelaide,Adelaide,Australia;7.NORDITA,Stockholm,Sweden;8.LAPTh,Université de Savoie,Annecy-le-Vieux,France;9.Department of Physics,Harvard University,Cambridge,USA;10.Faculty of Engineering and Information Technologies, Centre for Translational Data Science, School of Physics,The University of Sydney,Sydney,Australia;11.Department of Physics,Imperial College London, Blackett Laboratory,London,UK;12.GRAPPA, Institute of Physics,University of Amsterdam,Amsterdam,The Netherlands |
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| Abstract: | We describe ColliderBit, a new code for the calculation of high energy collider observables in theories of physics beyond the Standard Model (BSM). ColliderBit features a generic interface to BSM models, a unique parallelised Monte Carlo event generation scheme suitable for large-scale supercomputer applications, and a number of LHC analyses, covering a reasonable range of the BSM signatures currently sought by ATLAS and CMS. ColliderBit also calculates likelihoods for Higgs sector observables, and LEP searches for BSM particles. These features are provided by a combination of new code unique to ColliderBit, and interfaces to existing state-of-the-art public codes. ColliderBit is both an important part of the GAMBIT framework for BSM inference, and a standalone tool for efficiently applying collider constraints to theories of new physics. |
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