Collider aspects of flavour physics at high Q

T. Lari; L. Pape; W. Porod; J.A. Aguilar-Saavedra; F. del Aguila; B.C.; Allanach; J. Alwall; Yu. Andreev; D. Aristizabal Sierra; A. Bartl; M.; Beccaria; S. Bejar; L. Benucci; S. Bityukov; I. Borjanovic; G. Bozzi; G.; Burdman; J. Carvalho; N. Castro; B. Clerbaux; F. de Campos; A. de Gouvea; C.; Dennis; A. Djouadi; O.J.P. Eboli; U. Ellwanger; D. Fassouliotis; P.M.; Ferreira; R. Frederix; B. Fuks; J.-M. Gerard; A. Giammanco; S. Gopalakrishna,; T. Goto; B. Grzadkowski; J. Guasch; T. Hahn; S. Heinemeyer; A. Hektor; M.; Herquet; B. Herrmann; K. Hidaka; M. K. Hirsch; K. Hohenwarter-Sodek; W.; Hollik; G. W. S. Hou; T. Hurth; A. Ibarra; J. Illana; M. Kadastik; S.; Kalinin; C. Karafasoulis; M. Karagoz Unel; T. Kernreiter; M. M. Kirsanov; M.; Klasen; E. Kou; C. Kourkoumelis; S. Kraml; N. Krasnikov; F. Krauss; A.; Kyriakis; V. Lemaitre; G. Macorini; M.B. Magro; W. Majerotto; F. Maltoni; R.; Mehdiyev; M. Misiak; F. Moortgat; G. Moreau; M. M\"uhlleitner; M. Muntel; A.; Onofre; E. Ozcan; F. Palla; L. Panizzi; L. Pape; S. Penaranda; R. Pittau; G.; Polesello; A. Pukhov; M. Raidal; A.R. Raklev; L. Rebane; F. M. Renard; D.; Restrepo; Z. Roupas; R. Santos; S. Schumann; G. Servant; F. Siegert; P.; Skands; P. Slavich; J. Sola; M. Spira; S. Sultansoy; A. Toropin; A. Tricomi,; J. Tseng; G. Unel; J.W.F. Valle; F. Veloso; A. Ventura; G. Vermisoglou; C.; Verzegnassi; A. Villanova del Moral; G. Weiglein; M. Yilmaz

arXiv:0801.1800·hep-ph·December 18, 2008

Collider aspects of flavour physics at high Q

T. Lari, L. Pape, W. Porod, J.A. Aguilar-Saavedra, F. del Aguila, B.C., Allanach, J. Alwall, Yu. Andreev, D. Aristizabal Sierra, A. Bartl, M., Beccaria, S. Bejar, L. Benucci, S. Bityukov, I. Borjanovic, G. Bozzi, G., Burdman, J. Carvalho, N. Castro, B. Clerbaux, F. de Campos

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TL;DR

This review discusses flavour physics in heavy state production and decay at the LHC, covering experimental and theoretical perspectives, and includes analysis of various Standard Model extensions and related computational tools.

Contribution

It provides a comprehensive overview of flavour issues in heavy state phenomenology at the LHC, including new insights into model extensions and available computational tools.

Findings

01

Analysis of flavour effects in heavy state decays

02

Discussion of experimental signatures at LHC

03

Overview of computational tools for flavour physics

Abstract

This review presents flavour related issues in the production and decays of heavy states at LHC, both from the experimental side and from the theoretical side. We review top quark physics and discuss flavour aspects of several extensions of the Standard Model, such as supersymmetry, little Higgs model or models with extra dimensions. This includes discovery aspects as well as measurement of several properties of these heavy states. We also present public available computational tools related to this topic.

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