User menu

Higgs pair production via gluon fusion in the Two-Higgs-Doublet Model

  • Open access
  • PDF
  • 877.62 K
  1. Englert F., Brout R., Broken Symmetry and the Mass of Gauge Vector Mesons, 10.1103/physrevlett.13.321
  2. Higgs Peter W., Broken Symmetries and the Masses of Gauge Bosons, 10.1103/physrevlett.13.508
  3. CMS collaboration, Evidence for a particle decaying to W + W − in the fully leptonic final state in a standard model Higgs boson search in pp collisions at the LHC, CMS-PAS-HIG-13-003 (2013).
  4. CMS collaboration, Evidence for the 125 GeV Higgs boson decaying to a pair of τ leptons, JHEP 05 (2014) 104 [ CMS-HIG-13-004 ] [arXiv:1401.5041] [ INSPIRE ].
  5. CMS collaboration, Search for a Higgs boson decaying into a Z and a photon in pp collisions at s $$ \sqrt{s} $$ = 7 and 8 TeV, Phys. Lett. B 726 (2013) 587 [ CMS-HIG-13-006 ] [ arXiv:1307.5515 ] [ INSPIRE ].
  6. CMS collaboration, Search for SM Higgs in WH → WWW → 3ℓ3ν, CMS-HIG-13-009 (2013).
  7. ATLAS collaboration, Search for the Standard Model Higgs boson in the H → Zγ decay mode with pp collisions at s $$ \sqrt{s} $$ = 7 and 8 TeV, ATLAS-CONF-2013-009 (2013).
  8. ATLAS collaboration, Search for a Standard Model Higgs boson in H → μμ decays with the ATLAS detector., ATLAS-CONF-2013-010 (2013).
  9. ATLAS collaboration, Measurements of the properties of the Higgs-like boson in the two photon decay channel with the ATLAS detector using 25 fb −1 of proton-proton collision data, ATLAS-CONF-2013-012 (2013).
  10. ATLAS collaboration, Measurements of the properties of the Higgs-like boson in the four lepton decay channel with the ATLAS detector using 25 fb −1 of proton-proton collision data, ATLAS-CONF-2013-013 (2013).
  11. Branco G.C., Ferreira P.M., Lavoura L., Rebelo M.N., Sher Marc, Silva João P., Theory and phenomenology of two-Higgs-doublet models, 10.1016/j.physrep.2012.02.002
  12. Carena M., Haber H.E., Higgs Boson theory and phenomenology, 10.1016/s0146-6410(02)00177-1
  13. J.F. Gunion, H.E. Haber, G.L. Kane and S. Dawson, The Higgs Hunter’s Guide, Front. Phys. 80 (2000) 1 [ INSPIRE ].
  14. B. Stech, The mass of the Higgs boson in the trinification subgroup of E6, Phys. Rev. D 86 (2012) 055003 [ arXiv:1206.4233 ] [ INSPIRE ].
  15. B. Stech, Phenomenology of SU(3) L × SU(3) R × SU(3) C and the Higgs Boson, PoS(QFTHEP 2013)084 .
  16. Kaplan David B., Georgi Howard, Dimopoulos Savas, Composite Higgs scalars, 10.1016/0370-2693(84)91178-x
  17. Agashe Kaustubh, Contino Roberto, Pomarol Alex, The minimal composite Higgs model, 10.1016/j.nuclphysb.2005.04.035
  18. Burdman Gustavo, Haluch Carlos E. F., Two Higgs doublets from fermion condensation, 10.1007/jhep12(2011)038
  19. Schmaltz Martin, Tucker-Smith David, LITTLE HIGGS THEORIES, 10.1146/annurev.nucl.55.090704.151502
  20. Perelstein Maxim, Little Higgs models and their phenomenology, 10.1016/j.ppnp.2006.04.001
  21. E. Ma, Verifiable radiative seesaw mechanism of neutrino mass and dark matter, Phys. Rev. D 73 (2006) 077301 [ hep-ph/0601225 ] [ INSPIRE ].
  22. I. Chakraborty and A. Kundu, Two-Higgs doublet models confront the naturalness problem, arXiv:1404.3038 [ INSPIRE ].
  23. Kanemura Shinya, Okada Yasuhiro, Senaha Eibun, Electroweak baryogenesis and quantum corrections to the triple Higgs boson coupling, 10.1016/j.physletb.2004.12.004
  24. Cline James M., Kainulainen Kimmo, Trott Michael, Electroweak baryogenesis in two Higgs doublet models and B meson anomalies, 10.1007/jhep11(2011)089
  25. Tranberg Anders, Wu Bin, Cold electroweak baryogenesis in the two Higgs-doublet model, 10.1007/jhep07(2012)087
  26. Dorsch G. C., Huber S. J., No J. M., A strong electroweak phase transition in the 2HDM after LHC8, 10.1007/jhep10(2013)029
  27. Honorez Laura Lopez, Nezri Emmanuel, Oliver Josep F, Tytgat Michel H G, The inert doublet model: an archetype for dark matter, 10.1088/1475-7516/2007/02/028
  28. Lopez Honorez Laura, Yaguna Carlos E., The inert doublet model of dark matter revisited, 10.1007/jhep09(2010)046
  29. Gong Jinn-Ouk, Lee Hyun Min, Kang Sin Kyu, Inflation and dark matter in two Higgs doublet models, 10.1007/jhep04(2012)128
  30. M. Aoki et al., Light Charged Higgs bosons at the LHC in 2HDMs, Phys. Rev. D 84 (2011) 055028 [ arXiv:1104.3178 ] [ INSPIRE ].
  31. S. Chang, J.A. Evans and M.A. Luty, Possibility of early Higgs boson discovery in nonminimal Higgs sectors, Phys. Rev. D 84 (2011) 095030 [ arXiv:1107.2398 ] [ INSPIRE ].
  32. A. Arhrib, C.-W. Chiang, D.K. Ghosh and R. Santos, Two Higgs Doublet Model in light of the Standard Model H → τ + τ − search at the LHC, Phys. Rev. D 85 (2012) 115003 [ arXiv:1112.5527 ] [ INSPIRE ].
  33. S. Kanemura, K. Tsumura and H. Yokoya, Multi-τ lepton signatures at the LHC in the two Higgs doublet model, Phys. Rev. D 85 (2012) 095001 [ arXiv:1111.6089 ] [ INSPIRE ].
  34. Mader Wolfgang, Park Jae-hyeon, Pruna Giovanni Marco, Stöckinger Dominik, Straessner Arno, LHC explores what LEP hinted at: CP-violating type-I 2HDM, 10.1007/jhep09(2012)125
  35. K. Tsumura, Two Higgs doublet models at future colliders, arXiv:1305.1754 [ INSPIRE ].
  36. Harlander Robert V., Liebler Stefan, Zirke Tom, Higgs Strahlung at the Large Hadron Collider in the 2-Higgs-doublet model, 10.1007/jhep02(2014)023
  37. R. Harlander, M. Mühlleitner, J. Rathsman, M. Spira and O. Stål, Interim recommendations for the evaluation of Higgs production cross sections and branching ratios at the LHC in the Two-Higgs-Doublet Model, arXiv:1312.5571 [ INSPIRE ].
  38. Bagnaschi E., Harlander R.V., Liebler S., Mantler H., Slavich P., Vicini A., Towards precise predictions for Higgs-boson production in the MSSM, 10.1007/jhep06(2014)167
  39. S. Kanemura, K. Tsumura, K. Yagyu and H. Yokoya, Fingerprinting non-minimal Higgs sectors, arXiv:1406.3294 [ INSPIRE ].
  40. Djouadi A., Kilian W., Mühlleitner M., Zerwas P.M., Production of neutral Higgs-boson pairs at LHC, 10.1007/s100529900083
  41. R.S. Gupta, H. Rzehak and J.D. Wells, How well do we need to measure the Higgs boson mass and self-coupling?, Phys. Rev. D 88 (2013) 055024 [ arXiv:1305.6397 ] [ INSPIRE ].
  42. A. Efrati and Y. Nir, What if λ hhh  ≠ 3m h 2 /v, arXiv:1401.0935 [ INSPIRE ].
  43. E. Asakawa, D. Harada, S. Kanemura, Y. Okada and K. Tsumura, Higgs boson pair production in new physics models at hadron, lepton and photon colliders, Phys. Rev. D 82 (2010) 115002 [ arXiv:1009.4670 ] [ INSPIRE ].
  44. S. Dawson, E. Furlan and I. Lewis, Unravelling an extended quark sector through multiple Higgs production?, Phys. Rev. D 87 (2013) 014007 [ arXiv:1210.6663 ] [ INSPIRE ].
  45. Contino Roberto, Ghezzi Margherita, Moretti Mauro, Panico Giuliano, Piccinini Fulvio, Wulzer Andrea, Anomalous couplings in double Higgs production, 10.1007/jhep08(2012)154
  46. G.D. Kribs and A. Martin, Enhanced di-Higgs Production through Light Colored Scalars, Phys. Rev. D 86 (2012) 095023 [ arXiv:1207.4496 ] [ INSPIRE ].
  47. M.J. Dolan, C. Englert and M. Spannowsky, New Physics in LHC Higgs boson pair production, Phys. Rev. D 87 (2013) 055002 [ arXiv:1210.8166 ] [ INSPIRE ].
  48. Dolan Matthew J., Englert Christoph, Spannowsky Michael, Higgs self-coupling measurements at the LHC, 10.1007/jhep10(2012)112
  49. Gouzevitch Maxime, Oliveira Alexandra, Rojo Juan, Rosenfeld Rogerio, Salam Gavin P., Sanz Veronica, Scale-invariant resonance tagging in multijet events and new physics in Higgs pair production, 10.1007/jhep07(2013)148
  50. V. Barger, T. Han, P. Langacker, B. McElrath and P. Zerwas, Effects of genuine dimension-six Higgs operators, Phys. Rev. D 67 (2003) 115001 [ hep-ph/0301097 ] [ INSPIRE ].
  51. U. Baur, T. Plehn and D.L. Rainwater, Examining the Higgs boson potential at lepton and hadron colliders: a comparative analysis, Phys. Rev. D 68 (2003) 033001 [ hep-ph/0304015 ] [ INSPIRE ].
  52. U. Baur, T. Plehn and D.L. Rainwater, Probing the Higgs selfcoupling at hadron colliders using rare decays, Phys. Rev. D 69 (2004) 053004 [ hep-ph/0310056 ] [ INSPIRE ].
  53. T. Plehn and M. Rauch, The quartic Higgs coupling at hadron colliders, Phys. Rev. D 72 (2005) 053008 [ hep-ph/0507321 ] [ INSPIRE ].
  54. T. Binoth, S. Karg, N. Kauer and R. Ruckl, Multi-Higgs boson production in the Standard Model and beyond, Phys. Rev. D 74 (2006) 113008 [ hep-ph/0608057 ] [ INSPIRE ].
  55. Frederix R., Frixione S., Hirschi V., Maltoni F., Mattelaer O., Torrielli P., Vryonidou E., Zaro M., Higgs pair production at the LHC with NLO and parton-shower effects, 10.1016/j.physletb.2014.03.026
  56. A. Papaefstathiou, L.L. Yang and J. Zurita, Higgs boson pair production at the LHC in the b b ¯ W + W − $$ b\overline{b}{W}^{+}{W}^{-} $$ channel, Phys. Rev. D 87 (2013) 011301 [ arXiv:1209.1489 ] [ INSPIRE ].
  57. Baglio J., Djouadi A., Gröber R., Mühlleitner M.M., Quevillon J., Spira M., The measurement of the Higgs self-coupling at the LHC: theoretical status, 10.1007/jhep04(2013)151
  58. Barr Alan J., Dolan Matthew J., Englert Christoph, Spannowsky Michael, Di-Higgs final states augMT2ed – Selecting hh events at the high luminosity LHC, 10.1016/j.physletb.2013.12.011
  59. Q. Li, Q.-S. Yan and X. Zhao, Higgs Pair Production: Improved Description by Matrix Element Matching, Phys. Rev. D 89 (2014) 033015 [ arXiv:1312.3830 ] [ INSPIRE ].
  60. Goertz Florian, Papaefstathiou Andreas, Yang Li Lin, Zurita José, Higgs boson self-coupling measurements using ratios of cross sections, 10.1007/jhep06(2013)016
  61. de Lima Danilo Enoque Ferreira, Papaefstathiou Andreas, Spannowsky Michael, Standard model Higgs boson pair production in the ( b b ¯ $$ b\overline{b} $$ )( b b ¯ $$ b\overline{b} $$ ) final state, 10.1007/jhep08(2014)030
  62. Barger Vernon, Everett Lisa L., Jackson C.B., Shaughnessy Gabe, Higgs-pair production and measurement of the triscalar coupling at LHC(8,14), 10.1016/j.physletb.2013.12.013
  63. Sjöstrand Torbjörn, Mrenna Stephen, Skands Peter, A brief introduction to PYTHIA 8.1, 10.1016/j.cpc.2008.01.036
  64. F. Maltoni, E. Vryonidou and M. Zaro, Top-quark mass effects in double and triple Higgs production in gluon-gluon fusion at NLO, arXiv:1408.6542 [ INSPIRE ].
  65. Alwall J., Frederix R., Frixione S., Hirschi V., Maltoni F., Mattelaer O., Shao H.-S., Stelzer T., Torrielli P., Zaro M., The automated computation of tree-level and next-to-leading order differential cross sections, and their matching to parton shower simulations, 10.1007/jhep07(2014)079
  66. S.L. Glashow and S. Weinberg, Natural Conservation Laws for Neutral Currents, Phys. Rev. D 15 (1977) 1958 [ INSPIRE ].
  67. H.E. Haber and D. O’Neil, Basis-independent methods for the two-Higgs-doublet model. II. The Significance of tan beta, Phys. Rev. D 74 (2006) 015018 [ hep-ph/0602242 ] [ INSPIRE ].
  68. Davidson Sacha, Haber Howard E., Basis-independent methods for the two-Higgs-doublet model, 10.1103/physrevd.72.035004
  69. Klute Markus, Lafaye Rémi, Plehn Tilman, Rauch Michael, Zerwas Dirk, Measuring Higgs Couplings from LHC Data, 10.1103/physrevlett.109.101801
  70. G Akeroyd A., Arhrib A., Naimi E., Note on tree-level unitarity in the general two Higgs doublet model, 10.1016/s0370-2693(00)00962-x
  71. Kanemura Shinya, Kubota Takahiro, Takasugi Eiichi, Lee-Quigg-Thacker bounds for Higgs boson masses in a two-doublet model, 10.1016/0370-2693(93)91205-2
  72. Maalampi J, Sirkka J, Vilja I, Tree level unitarity and triviality bounds for two-Higgs models, 10.1016/0370-2693(91)90068-2
  73. I.F. Ginzburg and I.P. Ivanov, Tree-level unitarity constraints in the most general 2HDM, Phys. Rev. D 72 (2005) 115010 [ hep-ph/0508020 ] [ INSPIRE ].
  74. P. Osland, P.N. Pandita and L. Selbuz, Trilinear Higgs couplings in the two Higgs doublet model with CP-violation, Phys. Rev. D 78 (2008) 015003 [ arXiv:0802.0060 ] [ INSPIRE ].
  75. J.F. Gunion and H.E. Haber, The CP conserving two Higgs doublet model: the approach to the decoupling limit, Phys. Rev. D 67 (2003) 075019 [ hep-ph/0207010 ] [ INSPIRE ].
  76. C.-Y. Chen and S. Dawson, Exploring Two Higgs Doublet Models Through Higgs Production, Phys. Rev. D 87 (2013) 055016 [ arXiv:1301.0309 ] [ INSPIRE ].
  77. Kanemura Shinya, Kasai Takashi, Okada Yasuhiro, Mass bounds of the lightest CP-even Higgs boson in the two-Higgs-doublet model, 10.1016/s0370-2693(99)01351-9
  78. B.M. Kastening, Bounds from stability and symmetry breaking on parameters in the two Higgs doublet potential, hep-ph/9307224 [ INSPIRE ].
  79. Velhinho J., Santos R., Barroso A., Tree level vacuum stability in two-Higgs-doublet models, 10.1016/0370-2693(94)91109-6
  80. Nie Shuquan, Sher Marc, Vacuum stability bounds in the two-Higgs doublet model, 10.1016/s0370-2693(99)00019-2
  81. Ferreira P.M., Santos R., Barroso A., Stability of the tree-level vacuum in two Higgs doublet models against charge or CP spontaneous violation, 10.1016/j.physletb.2004.10.022
  82. Maniatis M., von Manteuffel A., Nachtmann O., Nagel F., Stability and symmetry breaking in the general two-Higgs-doublet model, 10.1140/epjc/s10052-006-0016-6
  83. Ferreira P.M, Jones D.R.T, Bounds on scalar masses in two Higgs doublet models, 10.1088/1126-6708/2009/08/069
  84. D. Toussaint, Renormalization Effects From Superheavy Higgs Particles, Phys. Rev. D 18 (1978) 1626 [ INSPIRE ].
  85. J. Frere and J. Vermaseren, Radiative Corrections to Masses in the Standard Model With Two Scalar Doublets, Z. Phys. C 19 (1983) 63.
  86. Bertolini Stefano, Quantum effects in a two Higgs doublet model of the electroweak interactions, 10.1016/0550-3213(86)90341-x
  87. W. Hollik, Nonstandard Higgs Bosons in SU(2) × U(1) Radiative Corrections, Z. Phys. C 32 (1986) 291 [ INSPIRE ].
  88. W. Hollik, Radiative Corrections With Two Higgs Doublets at LEP/SLC and HERA, Z. Phys. C 37 (1988) 569 [ INSPIRE ].
  89. C.D. Froggatt, R.G. Moorhouse and I.G. Knowles, Leading radiative corrections in two scalar doublet models, Phys. Rev. D 45 (1992) 2471 [ INSPIRE ].
  90. Grimus W, Lavoura L, Ogreid O M, Osland P, A precision constraint on multi-Higgs-doublet models, 10.1088/0954-3899/35/7/075001
  91. Grimus W., Lavoura L., Ogreid O.M., Osland P., The oblique parameters in multi-Higgs-doublet models, 10.1016/j.nuclphysb.2008.04.019
  92. H.-J. He, N. Polonsky and S.-f. Su, Extra families, Higgs spectrum and oblique corrections, Phys. Rev. D 64 (2001) 053004 [ hep-ph/0102144 ] [ INSPIRE ].
  93. M.J.G. Veltman, Second Threshold in Weak Interactions, Acta Phys. Polon. B 8 (1977) 475 [ INSPIRE ].
  94. Peskin Michael E., Takeuchi Tatsu, New constraint on a strongly interacting Higgs sector, 10.1103/physrevlett.65.964
  95. ALEPH, CDF, D0, DELPHI, L3, OPAL, SLD collaborations, the LEP Electroweak Working Group, the Tevatron Electroweak Working Group, the SLD Electroweak, the Heavy Flavour Groups, Precision Electroweak Measurements and Constraints on the Standard Model, arXiv:1012.2367 [ INSPIRE ].
  96. Baak M., , Goebel M., Haller J., Hoecker A., Kennedy D., Mönig K., Schott M., Stelzer J., Updated status of the global electroweak fit and constraints on new physics, 10.1140/epjc/s10052-012-2003-4
  97. Particle Data Group collaboration, J. Beringer et al., Review of Particle Physics (RPP), Phys. Rev. D 86 (2012) 010001 [ INSPIRE ].
  98. ATLAS collaboration, Updated coupling measurements of the Higgs boson with the ATLAS detector using up to 25 fb −1 of proton-proton collision data, ATLAS-CONF-2014-009 (2014).
  99. CMS collaboration, Combination of standard model Higgs boson searches and measurements of the properties of the new boson with a mass near 125 GeV, CMS-PAS-HIG-13-005 (2013).
  100. CMS collaboration, Properties of the Higgs-like boson in the decay H → ZZ → 4l in pp collisions at s $$ \sqrt{s} $$ = 7 and 8 TeV, CMS-PAS-HIG-13-002 (2013).
  101. ATLAS collaboration, Measurements of the properties of the Higgs-like boson in the four lepton decay channel with the ATLAS detector using 25 fb −1 of proton-proton collision data, ATLAS-CONF-2013-013 (2013).
  102. CMS collaboration, Higgs to ττ (MSSM), CMS-PAS-HIG-13-021 (2013).
  103. CMS collaboration, Search for a heavy Higgs boson in the H → ZZ → 2ℓ2ν channel in pp collisions at s $$ \sqrt{s} $$ = 7 and 8 TeV, CMS-PAS-HIG-13-014 (2013).
  104. ATLAS collaboration, Measurements of the properties of the Higgs-like boson in the WW (*) →ℓνℓν decay channel with the ATLAS detector using 25fb −1 of proton-proton collision data, ATLAS-CONF-2013-030 (2013).
  105. ATLAS collaboration, Search for the neutral Higgs bosons of the Minimal Supersymmetric Standard Model in pp collisions at s $$ \sqrt{s} $$ = 7 TeV with the ATLAS detector, JHEP 02 (2013) 095 [ arXiv:1211.6956 ] [ INSPIRE ].
  106. CMS collaboration, 2HDM scenario, H → hh and A → Zh, CMS-PAS-HIG-13-025 (2013).
  107. Mankel R., , Higgs searches beyond the Standard Model, 10.1142/s2010194514602889
  108. ATLAS collaboration, Search For Higgs Boson Pair Production in the gamma gamma b bbar Final State using pp Collision Data at s $$ \sqrt{s} $$ = 8 TeV from the ATLAS Detector, arXiv:1406.5053 [ INSPIRE ].
  109. CMS collaboration, Search for the resonant production of two Higgs bosons in the final state with two photons and two bottom quarks, CMS-PAS-HIG-13-032 (2014).
  110. ATLAS collaboration, Search for charged Higgs bosons decaying via H + → τν in top quark pair events using pp collision data at s $$ \sqrt{s} $$ = 7 TeV with the ATLAS detector, JHEP 06 (2012) 039 [ arXiv:1204.2760 ] [ INSPIRE ].
  111. CMS collaboration, Search for a light charged Higgs boson in top quark decays in pp collisions at s $$ \sqrt{s} $$ = 7 TeV, JHEP 07 (2012) 143 [ arXiv:1205.5736 ] [ INSPIRE ].
  112. ATLAS collaboration, Search for charged Higgs bosons in the τ +jets final state with pp collision data recorded at s $$ \sqrt{s} $$ = 8 TeV with the ATLAS experiment, ATLAS-CONF-2013-090 (2013).
  113. ALEPH, DELPHI, L3, OPAL, LEP collaborations, G. Abbiendi et al., Search for Charged Higgs bosons: Combined Results Using LEP Data, Eur. Phys. J. C 73 (2013) 2463 [ arXiv:1301.6065 ] [ INSPIRE ].
  114. BaBar collaboration, B. Aubert et al., Measurement of the B → X s γ branching fraction and photon energy spectrum using the recoil method, Phys. Rev. D 77 (2008) 051103 [ arXiv:0711.4889 ] [ INSPIRE ].
  115. S. Su and B. Thomas, The LHC Discovery Potential of a Leptophilic Higgs, Phys. Rev. D 79 (2009) 095014 [ arXiv:0903.0667 ] [ INSPIRE ].
  116. M. Aoki, S. Kanemura, K. Tsumura and K. Yagyu, Models of Yukawa interaction in the two Higgs doublet model and their collider phenomenology, Phys. Rev. D 80 (2009) 015017 [ arXiv:0902.4665 ] [ INSPIRE ].
  117. F. Mahmoudi and T. Hurth, Flavour data constraints on new physics and SuperIso, PoS(ICHEP2012)324 [ arXiv:1211.2796 ] [ INSPIRE ].
  118. A. Dedes and H.E. Haber, Can the Higgs sector contribute significantly to the muon anomalous magnetic moment?, JHEP 05 (2001) 006 [ hep-ph/0102297 ] [ INSPIRE ].
  119. D. Chang, W.-F. Chang, C.-H. Chou and W.-Y. Keung, Large two loop contributions to g-2 from a generic pseudoscalar boson, Phys. Rev. D 63 (2001) 091301 [ hep-ph/0009292 ] [ INSPIRE ].
  120. K. Cheung and O.C.W. Kong, Can the two Higgs doublet model survive the constraint from the muon anomalous magnetic moment as suggested?, Phys. Rev. D 68 (2003) 053003 [ hep-ph/0302111 ] [ INSPIRE ].
  121. P.M. Ferreira, R. Santos, M. Sher and J.P. Silva, Implications of the LHC two-photon signal for two-Higgs-doublet models, Phys. Rev. D 85 (2012) 077703 [ arXiv:1112.3277 ] [ INSPIRE ].
  122. P.M. Ferreira, R. Santos, M. Sher and J.P. Silva, Could the LHC two-photon signal correspond to the heavier scalar in two-Higgs-doublet models?, Phys. Rev. D 85 (2012) 035020 [ arXiv:1201.0019 ] [ INSPIRE ].
  123. A. Azatov, S. Chang, N. Craig and J. Galloway, Higgs fits preference for suppressed down-type couplings: Implications for supersymmetry, Phys. Rev. D 86 (2012) 075033 [ arXiv:1206.1058 ] [ INSPIRE ].
  124. D.S.M. Alves, P.J. Fox and N.J. Weiner, Higgs Signals in a Type I 2HDM or with a Sister Higgs, arXiv:1207.5499 [ INSPIRE ].
  125. Cheon H. S., Kang Sin Kyu, Constraining parameter space in type-II two-Higgs doublet model in light of a 126 GeV Higgs boson, 10.1007/jhep09(2013)085
  126. Y. Bai, V. Barger, L.L. Everett and G. Shaughnessy, General two Higgs doublet model (2HDM-G) and Large Hadron Collider data, Phys. Rev. D 87 (2013) 115013 [ arXiv:1210.4922 ] [ INSPIRE ].
  127. Chiang Cheng-Wei, Yagyu Kei, Implications of Higgs boson search data on the two-Higgs doublet models with a softly broken Z 2 symmetry, 10.1007/jhep07(2013)160
  128. Grinstein Benjamín, Uttayarat Patipan, Carving out parameter space in type-II two Higgs doublets model, 10.1007/jhep06(2013)094
  129. Krawczyk Maria, Sokołowska Dorota, Świeżewska Bogumiła, 2HDM withZ2symmetry in light of new LHC data, 10.1088/1742-6596/447/1/012050
  130. A. Barroso, P.M. Ferreira, R. Santos, M. Sher and J.P. Silva, 2HDM at the LHC — The story so far, arXiv:1304.5225 [ INSPIRE ].
  131. Coleppa Baradhwaj, Kling Felix, Su Shufang, Constraining type II 2HDM in light of LHC Higgs searches, 10.1007/jhep01(2014)161
  132. C.-Y. Chen, S. Dawson and M. Sher, Heavy Higgs Searches and Constraints on Two Higgs Doublet Models, Phys. Rev. D 88 (2013) 015018 [ arXiv:1305.1624 ] [ INSPIRE ].
  133. G. Bélanger, B. Dumont, U. Ellwanger, J.F. Gunion and S. Kraml, Global fit to Higgs signal strengths and couplings and implications for extended Higgs sectors, Phys. Rev. D 88 (2013) 075008 [ arXiv:1306.2941 ] [ INSPIRE ].
  134. Celis Alejandro, Ilisie Victor, Pich Antonio, LHC constraints on two-Higgs doublet models, 10.1007/jhep07(2013)053
  135. W. Altmannshofer, S. Gori and G.D. Kribs, A Minimal Flavor Violating 2HDM at the LHC, Phys. Rev. D 86 (2012) 115009 [ arXiv:1210.2465 ] [ INSPIRE ].
  136. N. Craig, J. Galloway and S. Thomas, Searching for Signs of the Second Higgs Doublet, arXiv:1305.2424 [ INSPIRE ].
  137. V. Barger, L.L. Everett, H.E. Logan and G. Shaughnessy, Scrutinizing the 125 GeV Higgs boson in two Higgs doublet models at the LHC, ILC and Muon Collider, Phys. Rev. D 88 (2013) 115003 [ arXiv:1308.0052 ] [ INSPIRE ].
  138. Celis Alejandro, Ilisie Victor, Pich Antonio, Towards a general analysis of LHC data within two-Higgs-doublet models, 10.1007/jhep12(2013)095
  139. Cheung Kingman, Lee Jae Sik, Tseng Po-Yan, Higgcision in the two-Higgs doublet models, 10.1007/jhep01(2014)085
  140. S. Chang et al., Two Higgs doublet models for the LHC Higgs boson data at s $$ \sqrt{s} $$ = 7 and 8 TeV, arXiv:1310.3374 [ INSPIRE ].
  141. Wang Lei, Han Xiao-Fang, Status of the aligned two-Higgs-doublet model confronted with the Higgs data, 10.1007/jhep04(2014)128
  142. X.-D. Cheng, Y.-D. Yang and X.-B. Yuan, Phenomenological discriminations of the Yukawa interactions in two-Higgs doublet models with Z 2 symmetry, arXiv:1401.6657 [ INSPIRE ].
  143. B. Coleppa, F. Kling and S. Su, Exotic Decays Of A Heavy Neutral Higgs Through HZ/AZ Channel, arXiv:1404.1922 [ INSPIRE ].
  144. J.F. Gunion and H.E. Haber, Conditions for CP-violation in the general two-Higgs-doublet model, Phys. Rev. D 72 (2005) 095002 [ hep-ph/0506227 ] [ INSPIRE ].
  145. Randall Lisa, Two-Higgs models for large tan β and heavy second Higgs, 10.1088/1126-6708/2008/02/084
  146. H.E. Haber et al., SUSY QCD corrections to the MSSM h0 b b ¯ $$ b\overline{b} $$ vertex in the decoupling limit, Phys. Rev. D 63 (2001) 055004 [ hep-ph/0007006 ] [ INSPIRE ].
  147. P.M. Ferreira, J.F. Gunion, H.E. Haber and R. Santos, Probing wrong-sign Yukawa couplings at the LHC and a future linear collider, Phys. Rev. D 89 (2014) 115003 [ arXiv:1403.4736 ] [ INSPIRE ].
  148. B. Dumont, J.F. Gunion, Y. Jiang and S. Kraml, Constraints on and future prospects for Two-Higgs-Doublet Models in light of the LHC Higgs signal, Phys. Rev. D 90 (2014) 035021 [ arXiv:1405.3584 ] [ INSPIRE ].
  149. Carena Marcela, Low Ian, Shah Nausheen R., Wagner Carlos E. M., Impersonating the Standard Model Higgs boson: alignment without decoupling, 10.1007/jhep04(2014)015
  150. Delgado Antonio, Nardini Germano, Quiros Mariano, A light supersymmetric Higgs sector hidden by a standard model-like Higgs, 10.1007/jhep07(2013)054
  151. Kanemura Shinya, Yokoya Hiroshi, Zheng Ya-Juan, Complementarity in direct searches for additional Higgs bosons at the LHC and the International Linear Collider, 10.1016/j.nuclphysb.2014.07.007
  152. Eriksson David, Rathsman Johan, Stål Oscar, 2HDMC – two-Higgs-doublet model calculator, 10.1016/j.cpc.2009.09.011
  153. Bechtle P., Brein O., Heinemeyer S., Weiglein G., Williams K.E., HiggsBounds: Confronting arbitrary Higgs sectors with exclusion bounds from LEP and the Tevatron, 10.1016/j.cpc.2009.09.003
  154. Bechtle P., Brein O., Heinemeyer S., Weiglein G., Williams K.E., HiggsBounds 2.0.0: Confronting neutral and charged Higgs sector predictions with exclusion bounds from LEP and the Tevatron, 10.1016/j.cpc.2011.07.015
  155. Mahmoudi F., SuperIso: A program for calculating the isospin asymmetry of in the MSSM, 10.1016/j.cpc.2007.12.006
  156. Mahmoudi F., SuperIso v2.3: A program for calculating flavor physics observables in supersymmetry, 10.1016/j.cpc.2009.02.017
  157. Bechtle Philip, Heinemeyer Sven, Stål Oscar, Stefaniak Tim, Weiglein Georg, HiggsSignals: Confronting arbitrary Higgs sectors with measurements at the Tevatron and the LHC, 10.1140/epjc/s10052-013-2711-4
  158. O. Stål and T. Stefaniak, Constraining extended Higgs sectors with HiggsSignals, PoS(EPS-HEP 2013)314 [ arXiv:1310.4039 ] [ INSPIRE ].
  159. J. Baglio, O. Eberhardt, U. Nierste and M. Wiebusch, Benchmarks for Higgs Pair Production and Heavy Higgs Searches in the Two-Higgs-Doublet Model of Type II, Phys. Rev. D 90 (2014) 015008 [ arXiv:1403.1264 ] [ INSPIRE ].
  160. A. Dobrovolskaya and V. Novikov, On heavy Higgs boson production, Z. Phys. C 52 (1991) 427 [ INSPIRE ].
  161. Dicus Duane A., Kallianpur Kalpana J., Willenbrock Scott S.D., Higgs boson pair production in the effective-W approximation, 10.1016/0370-2693(88)91134-3
  162. Abbasabadi A., Repko W.W., Dicus Duane A., Vega Roberto, Single and double Higgs production by gauge boson fusion, 10.1016/0370-2693(88)91781-9
  163. A. Abbasabadi, W.W. Repko, D.A. Dicus and R. Vega, Comparison of Exact and Effective Gauge Boson Calculations for Gauge Boson Fusion Processes, Phys. Rev. D 38 (1988) 2770 [ INSPIRE ].
  164. Éboli O.J.P., Marques G.C., Novaes S.F., Natale A.A., Twin Higgs-boson production, 10.1016/0370-2693(87)90381-9
  165. KEUNG WAI-YEE, DOUBLE HIGGS FROM W-W FUSION, 10.1142/s0217732387000951
  166. V.D. Barger, T. Han and R.J.N. Phillips, Double Higgs Boson Bremsstrahlung From W and Z Bosons at Supercolliders, Phys. Rev. D 38 (1988) 2766 [ INSPIRE ].
  167. Glover E.W.N., Van der Bij J.J., Z-boson pair production via gluon fusion, 10.1016/0550-3213(89)90262-9
  168. Plehn T., Spira M., Zerwas P.M., Pair production of neutral Higgs particles in gluon-gluon collisions, 10.1016/0550-3213(96)00418-x
  169. Dicus Duane A., Kao Chung, Willenbrock Scott S.D., Higgs boson pair production from gluon fusion, 10.1016/0370-2693(88)90202-x
  170. S. Dawson, S. Dittmaier and M. Spira, Neutral Higgs boson pair production at hadron colliders: QCD corrections, Phys. Rev. D 58 (1998) 115012 [ hep-ph/9805244 ] [ INSPIRE ].
  171. de Florian Daniel, Mazzitelli Javier, Two-loop virtual corrections to Higgs pair production, 10.1016/j.physletb.2013.06.046
  172. Grigo Jonathan, Hoff Jens, Melnikov Kirill, Steinhauser Matthias, On the Higgs boson pair production at the LHC, 10.1016/j.nuclphysb.2013.06.024
  173. Shao Ding Yu, Li Chong Sheng, Li Hai Tao, Wang Jian, Threshold resummation effects in Higgs boson pair production at the LHC, 10.1007/jhep07(2013)169
  174. Maierhöfer Philipp, Papaefstathiou Andreas, Higgs boson pair production merged to one jet, 10.1007/jhep03(2014)126
  175. Cao Junjie, Heng Zhaoxia, Shang Liangliang, Wan Peihua, Yang Jin Min, Pair production of a 125GeV Higgs boson in MSSM and NMSSM at the LHC, 10.1007/jhep04(2013)134
  176. Ellwanger Ulrich, Higgs pair production in the NMSSM at the LHC, 10.1007/jhep08(2013)077
  177. Nhung Dao Thi, Mühlleitner Margarete, Streicher Juraj, Walz Kathrin, Higher order corrections to the trilinear Higgs self-couplings in the real NMSSM, 10.1007/jhep11(2013)181
  178. A. Arhrib, R. Benbrik, R.B. Guedes and R. Santos, Search for a light fermiophobic Higgs boson produced via gluon fusion at Hadron Colliders, Phys. Rev. D 78 (2008) 075002 [ arXiv:0805.1603 ] [ INSPIRE ].
  179. Arhrib Abdesslam, Benbrik Rachid, Chen Chuan-Hung, Guedes Renato, Santos and Rui, Double neutral Higgs production in the two-Higgs doublet model at the LHC, 10.1088/1126-6708/2009/08/035
  180. C.-Y. Chen, S. Dawson and I.M. Lewis, Top Partners and Higgs Boson Production, Phys. Rev. D 90 (2014) 035016 [ arXiv:1406.3349 ] [ INSPIRE ].
  181. Dib Claudio O, Rosenfeld Rogerio, Zerwekh Alfonso, Double Higgs production and quadratic divergence cancellation in little Higgs models with T-parity, 10.1088/1126-6708/2006/05/074
  182. L. Wang, W. Wang, J.M. Yang and H. Zhang, Higgs-pair production in littlest Higgs model with T-parity, Phys. Rev. D 76 (2007) 017702 [ arXiv:0705.3392 ] [ INSPIRE ].
  183. J.M. No and M. Ramsey-Musolf, Probing the Higgs Portal at the LHC Through Resonant di-Higgs Production, Phys. Rev. D 89 (2014) 095031 [ arXiv:1310.6035 ] [ INSPIRE ].
  184. E.L. Berger, S.B. Giddings, H. Wang and H. Zhang, Higgs-flavon mixing and LHC phenomenology in a simplified model of broken flavor symmetry, arXiv:1406.6054 [ INSPIRE ].
  185. Gröber R., Mühlleitner M., Composite Higgs boson pair production at the LHC, 10.1007/jhep06(2011)020
  186. Gillioz M., Gröber R., Grojean C., Mühlleitner M., Salvioni E., Higgs low-energy theorem (and its corrections) in composite models, 10.1007/jhep10(2012)004
  187. Krause A., Plehn T., Spira M., Zerwas P.M., Production of charged Higgs-boson pairs in gluon-gluon collisions, 10.1016/s0550-3213(98)00036-4
  188. Brein O., Hollik W., Pair production of charged MSSM Higgs bosons by gluon fusion, 10.1007/s100520000249
  189. Pierce Aaron, Thaler Jesse, Wang Lian-Tao, Disentangling dimension six operators through di-Higgs boson production, 10.1088/1126-6708/2007/05/070
  190. J. Liu, X.-P. Wang and S.-h. Zhu, Discovering extra Higgs boson via pair production of the SM-like Higgs bosons, arXiv:1310.3634 [ INSPIRE ].
  191. Hahn Thomas, Generating Feynman diagrams and amplitudes with FeynArts 3, 10.1016/s0010-4655(01)00290-9
  192. X. Li and M.B. Voloshin, Remarks on double Higgs boson production by gluon fusion at threshold, Phys. Rev. D 89 (2014) 013012 [ arXiv:1311.5156 ] [ INSPIRE ].
  193. Ellis John, Gaillard Mary K., Nanopoulos D.V., A phenomenological profile of the Higgs boson, 10.1016/0550-3213(76)90382-5
  194. M.A. Shifman, A.I. Vainshtein, M.B. Voloshin and V.I. Zakharov, Low-Energy Theorems for Higgs Boson Couplings to Photons, Sov. J. Nucl. Phys. 30 (1979) 711 [ INSPIRE ].
  195. B.A. Kniehl and M. Spira, Low-energy theorems in Higgs physics, Z. Phys. C 69 (1995) 77 [ hep-ph/9505225 ] [ INSPIRE ].
  196. Baur Ulrich, Plehn Tilman, Rainwater David, Measuring the Higgs Boson Self-Coupling at the Large Hadron Collider, 10.1103/physrevlett.89.151801
  197. Frederix Rikkert, Frixione Stefano, Maltoni Fabio, Stelzer Tim, Automation of next-to-leading order computations in QCD: the FKS subtraction, 10.1088/1126-6708/2009/10/003
  198. Frixione S., Kunszt Z., Signer A., Three-jet cross sections to next-to-leading order, 10.1016/0550-3213(96)00110-1
  199. Frixione Stefano, A general approach to jet cross sections in QCD, 10.1016/s0550-3213(97)00574-9
  200. Frixione Stefano, Webber Bryan R, Matching NLO QCD computations and parton shower simulations, 10.1088/1126-6708/2002/06/029
  201. Hirschi Valentin, Frederix Rikkert, Frixione Stefano, Vittoria Garzelli Maria, Maltoni Fabio, Pittau Roberto, Automation of one-loop QCD computations, 10.1007/jhep05(2011)044
  202. Ossola Giovanni, Papadopoulos Costas G., Pittau Roberto, Reducing full one-loop amplitudes to scalar integrals at the integrand level, 10.1016/j.nuclphysb.2006.11.012
  203. Ossola Giovanni, Papadopoulos Costas G, Pittau Roberto, CutTools: a program implementing the OPP reduction method to compute one-loop amplitudes, 10.1088/1126-6708/2008/03/042
  204. Cascioli F., Maierhöfer P., Pozzorini S., Scattering Amplitudes with Open Loops, 10.1103/physrevlett.108.111601
  205. C. Degrande, Automatic evaluation of UV and R2 terms for beyond the Standard Model Lagrangians: a proof-of-principle, arXiv:1406.3030 [ INSPIRE ].
  206. Alloul Adam, Christensen Neil D., Degrande Céline, Duhr Claude, Fuks Benjamin, FeynRules  2.0 — A complete toolbox for tree-level phenomenology, 10.1016/j.cpc.2014.04.012
  207. Degrande Céline, Duhr Claude, Fuks Benjamin, Grellscheid David, Mattelaer Olivier, Reiter Thomas, UFO – The Universal FeynRules Output, 10.1016/j.cpc.2012.01.022
  208. Martin A. D., Stirling W. J., Thorne R. S., Watt G., Parton distributions for the LHC, 10.1140/epjc/s10052-009-1072-5
  209. de Florian Daniel, Mazzitelli Javier, Higgs Boson Pair Production at Next-to-Next-to-Leading Order in QCD, 10.1103/physrevlett.111.201801
  210. Frederix Rikkert, Frixione Stefano, Hirschi Valentin, Maltoni Fabio, Pittau Roberto, Torrielli Paolo, Four-lepton production at hadron colliders: aMC@NLO predictions with theoretical uncertainties, 10.1007/jhep02(2012)099
  211. .
  212. J. Ohnemus and J.F. Owens, An order α − s calculation of hadronic ZZ production, Phys. Rev. D 43 (1991) 3626 [ INSPIRE ].
  213. J. Ohnemus, An order-α s calculation of hadronic W ± Z production, Phys. Rev. D 44 (1991) 3477 [ INSPIRE ].
  214. J. Ohnemus, An order-α s calculation of hadronic W − W + production, Phys. Rev. D 44 (1991) 1403 [ INSPIRE ].
  215. Bagnaschi E., Degrassi G., Slavich P., Vicini A., Higgs production via gluon fusion in the POWHEG approach in the SM and in the MSSM, 10.1007/jhep02(2012)088
Bibliographic reference Hespel, Benoît ; Lopez Val, David ; Vryonidou, Eleni. Higgs pair production via gluon fusion in the Two-Higgs-Doublet Model. In: Journal of High Energy Physics (Print), Vol. 2014, no. 9 (2014)
Permanent URL