Comptes Rendus
Future flavour physics experiments: LHCb and Super B factories
[Futures expériences sur la physique de la saveur : LHCb et super-usines à B]
Comptes Rendus. Physique, Volume 13 (2012) no. 2, pp. 159-167.

Dans cet article nous présentons le programme de physique de LHCb et celui dʼune future usine à B asymétriques e+e à haute luminosité. En utilisant quelques exemples nous montrerons comment les mesures qui seront effectuées permettront dʼétudier la structure de la nouvelle physique au delà du Modèle Standard si elle est mise en évidence par les expériences ATLAS et CMS au LHC, et/ou dʼétendre le domaine de la recherche de la nouvelle physique à des énergies plus élevées et non accessibles au LHC.

In this article we present the physics programs for LHCb and for an e+e high luminosity asymmetric B factory. Using a few examples, we will show how the measurements which can be performed will allow us to study, in a unique manner, the structure of the New Physics beyond the Standard Model, if discovered at LHC with the general purpose detectors ATLAS and CMS, and/or eventually to extend the domain of the New Physics search to larger energy not accessible at LHC.

Publié le :
DOI : 10.1016/j.crhy.2011.10.004
Keywords: Flavour physics, LHCb, Super B factories
Mot clés : Physique de la saveur, LHCb, Super usine à B

Marie-Hélène Schune 1 ; Achille Stocchi 1

1 Laboratoire de lʼaccélérateur linéaire, IN2P3-CNRS et université de Paris-Sud, BP 34, 91898 Orsay cedex, France
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     title = {Future flavour physics experiments: {LHCb} and {Super} {\protect\emph{B}} factories},
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     pages = {159--167},
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Marie-Hélène Schune; Achille Stocchi. Future flavour physics experiments: LHCb and Super B factories. Comptes Rendus. Physique, Volume 13 (2012) no. 2, pp. 159-167. doi : 10.1016/j.crhy.2011.10.004. https://comptes-rendus.academie-sciences.fr/physique/articles/10.1016/j.crhy.2011.10.004/

[1] The LHCb Collaboration, Expression of interest for an LHCb upgrade, CERN-LHCb-2008-019.

[2] A. Augusto Alves; et al.; LHCb Collaboration JINST, 3 (2008), p. S08005

[3] LHCb Collaboration; B. Adeva et al. Roadmap for selected key measurements of LHCb | arXiv

[4] R. Aaij; et al.; LHCb Collaboration Measurement of σ(ppbb¯X) at (s)=7 TeV in the forward region, Phys. Lett. B, Volume 694 (2010), p. 209

[5] P. Robbe, Prompt J/ψ and bJ/ψX production in pp collisions, in: Workshop on Discovery Physics at the LHC, Mpumalanga, South Africa, 5–10 December 2010.

[6] M. Blanke et al. TUM-HEP-626/06, JHEP, Volume 0610 (2006), p. 003 | arXiv

[7] CDF Collaboration, CDF Public Note 9892.

[8] LHCb Collaboration, Search for the rare decay B(s)0μ+μ with 300 pb1 at LHCb, LHCb-CONF-2011-037.

[9] A.L. Read, CERN Yellow Report 2000-005.

[10] F. Kruger; J. Matias Probing new physics via the transverse amplitudes of BK+ at large recoil, Phys. Rev. D, Volume 71 (2005), p. 094009

[11] CDF Collaboration, FERMILAB-PUB-11-364-PPD. | arXiv

[12] Ulrik Egede, Angular correlations in the BKμ+μ decay, LHCb 2007-057.

[13] LHCb Collaboration, Angular analysis of BKμ+μ, LHCb-CONF-2011-038.

[14] C. Bobeth; G. Hiller; D. van Dyk More benefits of semileptonic rare B decays at low recoil: CP violation | arXiv

[15] R.N. Mohapatra; J.C. Pati; G. Senjanovic; R.N. Mohapatra; G. Senjanovic; H.E. Haber; G.L. Kane Phys. Rep., 11 (1975), p. 566

[16] D. Atwood; M. Gronau; A. Soni Phys. Rev. Lett. (1997), p. 15 | arXiv

[17] http://www.slac.stanford.edu/xorg/hfag/

[18] Y. Grossman; D. Pirjol J. High Energy Phys., 0006 (2000), p. 029

[19] Jacques Lefrançois, Marie-Hélène Schune, Measuring the photon polarisation in bsγ using the BKe+e decay channel, LHCb 2009-008.

[20] G. Raven, B physics results from the LHC, in: 25th International Symposium on Lepton Interactions at High Energies, Mumbai, India, August 2011, LHCb-TALK-2011-172.

[21] CDF public note 10206 and D0 conference note 6093.

[22] R. Fleischer Nucl. Phys. B, 671 (2003), p. 459

[23] A.J. Bevan C. R. Physique, 13 (2012) no. 2, pp. 145-151

[24] A.I. Sanda C. R. Physique, 13 (2012) no. 2, pp. 141-144

[25] D. Alesini; et al.; C. Milardi et al. Nuovo Cim., 181–182 (2008), p. 385

[26] M. Bona; et al.; D.G. Hitlin; et al.; T. Browder; M. Ciuchini; T. Gershon; M. Hazumi; T. Hurth; Y. Okada; A. Stocchi; A.G. Akeroyd; et al.; SuperKEKB Physics Working Group; J.L. Hewett et al. The discovery potential of a Super B factory, in: Proceedings, SLAC, JHEP, Volume 0802, 2008, p. 110 | arXiv

[27] D. Bečirević; V. Lubicz C. R. Physique, 13 (2012) no. 2, pp. 121-126

[28] L.J. Hall; V.A. Kostelecky; S. Raby; F. Gabbiani; E. Gabrielli; A. Masiero; L. Silvestrini; M. Ciuchini; E. Franco; A. Masiero; L. Silvestrini; M. Ciuchini; E. Franco; A. Masiero; L. Silvestrini Phys. Rev. D, 267 (1986), p. 415 (Erratum) | arXiv

[29] M.A. Sanchis-Lozano; E. Accomando; et al.; M. Carena; J.R. Ellis; A. Pilaftsis; C.E.M. Wagner; D. Besson; CLEO Collaboration; J.F. Gunion; D. Hooper; B. McElrath Phys. Rev. D, 19 (2004), p. 2183 | arXiv

[30] B. McElrath Phys. Rev. D, 72 (2005), p. 103508 | arXiv

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