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Probing top-Higgs non-standard interactions at the LHC

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  1. Bona M, Ciuchini M, Franco E, Lubicz V, Martinelli G, Parodi F, Pierini M, Roudeau P, Schiavi C, Silvestrini L, Sordini V, Stocchi A, Vagnoni V, Model-independent constraints on ΔF= 2 operators and the scale of new physics, 10.1088/1126-6708/2008/03/049
  2. Z. Han and W. Skiba, Effective theory analysis of precision electroweak data, Phys. Rev. D 71 (2005) 075009 [ hep-ph/0412166 ] [ INSPIRE ].
  3. Barbieri Riccardo, Pomarol Alex, Rattazzi Riccardo, Strumia Alessandro, Electroweak symmetry breaking after LEP1 and LEP2, 10.1016/j.nuclphysb.2004.10.014
  4. C. Zhang, N. Greiner and S. Willenbrock, Constraints on non-standard top quark couplings, arXiv:1201.6670 [ INSPIRE ].
  5. Degrande Céline, Gérard Jean-Marc, Grojean Christophe, Maltoni Fabio, Servant Géraldine, Non-resonant new physics in top pair production at hadron colliders, 10.1007/jhep03(2011)125
  6. J.F. Kamenik, M. Papucci and A. Weiler, Constraining the dipole moments of the top quark, Phys. Rev. D 85 (2012) 071501 [ arXiv:1107.3143 ] [ INSPIRE ].
  7. D. Carmi, A. Falkowski, E. Kuflik and T. Volansky, Interpreting LHC Higgs results from natural new physics perspective, arXiv:1202.3144 [ INSPIRE ].
  8. Azatov Aleksandr, Contino Roberto, Galloway Jamison, Model-independent bounds on a light Higgs, 10.1007/jhep04(2012)127
  9. Espinosa J. R., Grojean C., Mühlleitner M., Trott M., Fingerprinting Higgs suspects at the LHC, 10.1007/jhep05(2012)097
  10. Giardino Pier Paolo, Kannike Kristjan, Raidal Martti, Strumia Alessandro, Reconstructing Higgs boson properties from the LHC and Tevatron data, 10.1007/jhep06(2012)117
  11. J. Ellis and T. You, Global analysis of experimental constraints on a possible Higgs-like particle with mass ∼ 125 GeV, arXiv:1204.0464 [ INSPIRE ].
  12. A. Azatov, R. Contino, D. Del Re, J. Galloway, M. Grassi, et al., Determining Higgs couplings with a model-independent analysis of H → γγ, arXiv:1204.4817 [ INSPIRE ].
  13. M. Farina, C. Grojean and E. Salvioni, (Dys)Zphilia or a custodial breaking Higgs at the LHC, arXiv:1205.0011 [ INSPIRE ].
  14. Buchmüller W., Wyler D., Effective lagrangian analysis of new interactions and flavour conservation, 10.1016/0550-3213(86)90262-2
  15. Grzadkowski B., Iskrzyński M., Misiak M., Rosiek J., Dimension-six terms in the Standard Model Lagrangian, 10.1007/jhep10(2010)085
  16. G. Buchalla and O. Catà, Effective theory of a dynamically broken electroweak standard model at NLO, arXiv:1203.6510 [ INSPIRE ].
  17. Giudice Gian Francesco, Grojean Christophe, Pomarol Alex, Rattazzi Riccardo, The strongly-interacting light Higgs, 10.1088/1126-6708/2007/06/045
  18. Manohar Aneesh V., Wise Mark B., Modifications to the properties of the Higgs boson, 10.1016/j.physletb.2006.03.030
  19. Pierce Aaron, Thaler Jesse, Wang Lian-Tao, Disentangling dimension six operators through di-Higgs boson production, 10.1088/1126-6708/2007/05/070
  20. CDF and D0 collaboration, T. Aaltonen et al., Combined CDF and D0 upper limits on standard model Higgs boson production with up to 8.2 fb −1 of data, arXiv:1103.3233 [ INSPIRE ].
  21. ATLAS collaboration, Combination of Higgs boson searches with up to 4.9 fb −1 of pp collisions data taken at a center-of-mass energy of 7 TeV with the ATLAS experiment at the LHC, ATLAS-CONF-2011-163 (2011).
  22. CMS collaboration, Combination of SM Higgs searches, PAS-HIG-11-032 (Combination of SM Higgs Searches).
  23. ATLAS collaboration, G. Aad et al., Combined search for the standard model Higgs boson using up to 4.9 fb −1 of pp collision data at $ \sqrt {s} = 7 $ TeV with the ATLAS detector at the LHC, Phys. Lett. B 710 (2012) 49 [ arXiv:1202.1408 ] [ INSPIRE ].
  24. LHC Higgs Cross Section Working Group collaboration, S. Dittmaier et al., Handbook of LHC Higgs cross sections: 1. Inclusive observables, arXiv:1101.0593 [ INSPIRE ].
  25. D. Choudhury and P. Saha, Higgs production as a probe of anomalous top couplings, arXiv:1201.4130 [ INSPIRE ].
  26. I. Low and A. Vichi, On the production of a composite Higgs boson, Phys. Rev. D 84 (2011) 045019 [ arXiv:1010.2753 ] [ INSPIRE ].
  27. Aguilar-Saavedra J.A., A minimal set of top-Higgs anomalous couplings, 10.1016/j.nuclphysb.2009.06.022
  28. Cerveró Elvira, Gérard Jean-Marc, Minimal violation of flavour and custodial symmetries in a vectophobic Two-Higgs-Doublet-Model, 10.1016/j.physletb.2012.05.010
  29. ATLAS collaboration, G. Aad et al., Summary plot of top quark pair production cross-section, (2012).
  30. Georgi Howard, Generalized dimensional analysis, 10.1016/0370-2693(93)91728-6
  31. Manohar Aneesh, Georgi Howard, Chiral quarks and the non-relativistic quark model, 10.1016/0550-3213(84)90231-1
  32. Nomura Daisuke, Effects of top-quark compositeness on Higgs boson production at the LHC, 10.1007/jhep02(2010)061
  33. C. Zhang and S. Willenbrock, Effective-field-theory approach to top-quark production and decay, Phys. Rev. D 83 (2011) 034006 [ arXiv:1008.3869 ] [ INSPIRE ].
  34. Christensen Neil D., Duhr Claude, FeynRules – Feynman rules made easy, 10.1016/j.cpc.2009.02.018
  35. Degrande Céline, Duhr Claude, Fuks Benjamin, Grellscheid David, Mattelaer Olivier, Reiter Thomas, UFO – The Universal FeynRules Output, 10.1016/j.cpc.2012.01.022
  36. P. de Aquino, W. Link, F. Maltoni, O. Mattelaer and T. Stelzer, ALOHA: automatic libraries of helicity amplitudes for Feynman diagram computations, arXiv:1108.2041 [ INSPIRE ].
  37. Alwall Johan, Herquet Michel, Maltoni Fabio, Mattelaer Olivier, Stelzer Tim, MadGraph 5: going beyond, 10.1007/jhep06(2011)128
  38. Beenakker W., Dittmaier S., Krämer M., Plümper B., Spira M., Zerwas P. M., Higgs Radiation Off Top Quarks at the Tevatron and the LHC, 10.1103/physrevlett.87.201805
  39. S. Dawson, L. Orr, L. Reina and D. Wackeroth, Associated top quark Higgs boson production at the LHC, Phys. Rev. D 67 (2003) 071503 [ hep-ph/0211438 ] [ INSPIRE ].
Bibliographic reference Degrande, Céline ; Gérard, Jean-Marc ; Grojean, Christophe ; Maltoni, Fabio ; Servant, Géraldine. Probing top-Higgs non-standard interactions at the LHC. In: Journal of High Energy Physics, Vol. 1207, no. --, p. 036 (2012)
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