G. Guralnik, C. Hagen and T. Kibble, Global conservation laws and massless particles, Phys. Rev. Lett. 13 (1964) 585 [INSPIRE]. ArticleADS Google Scholar
F. Gianotti, Update on the standard model Higgs searches in ATLAS, CERN publicseminar, December 13, Switzerland (2011).
G. Tonelli, Update on the standard model Higgs searches in CMS, CERN public seminar, December 13, Switzerland (2011).
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]. ADS Google Scholar
CMS collaboration, S. Chatrchyan et al., Combined results of searches for the standard model Higgs boson in pp collisions at \(\sqrt {s} = 7\;TeV\), Phys. Lett.B 710 (2012) 26 [arXiv:1202.1488] [INSPIRE]. ArticleADS Google Scholar
E. Gabrielli, B. Mele and M. Raidal, Has a fermiophobic Higgs boson been detected at the LHC?, arXiv:1202.1796 [INSPIRE].
LHC Higgs Cross Section working group, S. Dittmaier et al., Handbook of LHC Higgs cross sections: 2_. Differential distributions_, arXiv:1201.3084 [CERN-2012-002] [INSPIRE].
CDF and D0 collaboration, Combined CDF and D0 searches for standard model Higgs boson production, arXiv:1203.3774 [INSPIRE].
W. Fisher, New results from the Tevatron experiment, talk given at the Rencontres de Moriond, March 3-10, La Thuile, Italy (2012).
CMS collaboration, Search for Higgs boson in VH Production with H to bb, PAS-HIG-11-031 (2011).
ATLAS collaboration, Search for the standard model Higgs boson produced in association with a vector boson and decaying to a b-quark pair using up to 4_._7 fb −1 of pp collision data at \(\sqrt {s} = 7\;TeV\) with the ATLAS detector at the LHC, ATLAS-CONF-2012-015 (2012).
CMS collaboration, Search for the Higgs boson in the fully leptonic W + W − final state, PAS-HIG-11-024 (2011).
ATLAS collaboration, Search for the standard model Higgs boson in the H → W W → ℓνℓν decay mode with 4_._7 fb −1 of ATLAS data at \(\sqrt {s} = 7\;TeV\), ATLAS-CONF-2012-012 (2012).
S. Kortner, SM scalar boson search with the ATLAS detector, talk given at the Rencontres de Moriond, March 3-10, La Thuile, Italy (2012).
CMS Collaboration, Search for a standard model Higgs boson produced in the decay channel H → ZZ ∗ → 4_ℓ_,arXiv:1202.1997 [INSPIRE].
CMS collaboration, S. Chatrchyan et al., Search for the standard model Higgs boson decaying into two photons in pp collisions at \(\sqrt {s} = 7\;TeV\), Phys. Lett.B 710 (2012) 403 [arXiv:1202.1487] [INSPIRE]. ArticleADS Google Scholar
CMS collaboration, A search using multivariate techniques for a standard model Higgs boson decaying into two photons, CMS-PAS-HIG-12-001 (2012).
ATLAS collaboration, G. Aad et al., Search for the standard model Higgs boson in the diphoton decay channel with 4_._9 fb −1 of pp collisions at \(\sqrt {s} = 7\;TeV\) with ATLAS, Phys. Rev. Lett.108 (2012) 111803 [arXiv:1202.1414] [INSPIRE]. ArticleADS Google Scholar
TEVNPH, CDF, D0 collaboration, Combined CDF and D0 search for standard model Higgs boson production with up to 10_._0 fb −1 of data, arXiv:1203.3774 [INSPIRE].
CMS collaboration, Search for the fermiophobic model Higgs boson decaying into two photons, PAS-HIG-12-002 (2012).
S. Dasu, Higgs sector beyond standard model, talk given at the Rencontres de Moriond, March 3-10, La Thuile, Italy (2012).
ATLAS collaboration, Search for a fermiophobic Higgs boson in the diphoton decay channel with 4_._9 fb −1 of ATLAS data at \(\sqrt {s} = 7\;TeV\), ATLAS-CONF-2012-013 (2012).
CMS collaboration, S. Chatrchyan et al., Search for neutral Higgs bosons decaying to τ pairs in pp collisions at \(\sqrt {s} = 7\;TeV\), Phys. Lett.B 713 (2012) 68 [arXiv:1202.4083] [INSPIRE]. ArticleADS Google Scholar
ATLAS collaboration, Search for the Standard Model Higgs boson in the H → τ + τ − decay mode with 4_._7 fb −1 of ATLAS data at 7 TeV, ATLAS-CONF-2012-014 (2012).
R.M. Godbole, M. Guchait, K. Mazumdar, S. Moretti and D.P. Roy, Search for ‘_invisible_’ Higgs signals at LHC via associated production with gauge bosons, Phys. Lett.B 571 (2003) 184 [hep-ph/0304137] [INSPIRE]. ArticleADS Google Scholar
J.F. Kamenik and C. Smith, Could a light Higgs boson illuminate the dark sector?, arXiv:1201.4814 [INSPIRE].
Y. Mambrini, Higgs searches and singlet scalar dark matter: Combined constraints from XENON 100 and the LHC, Phys. Rev.D 84 (2011) 115017 [arXiv:1108.0671] [INSPIRE]. ADS Google Scholar
X.-G. He, B. Ren and J. Tandean, Hints of standard model Higgs boson at the LHC and light dark matter searches, Phys. Rev.D 85 (2012) 093019 [arXiv:1112.6364] [INSPIRE]. ADS Google Scholar
C. Englert, J. Jaeckel, E. Re and M. Spannowsky, Evasive Higgs maneuvers at the LHC, Phys. Rev. D 85 (2012) 035008 [arXiv:1111.1719] [INSPIRE]. ADS Google Scholar
I. Low, P. Schwaller, G. Shaughnessy and C.E. Wagner, The dark side of the Higgs boson, Phys. Rev. D 85 (2012) 015009 [arXiv:1110.4405] [INSPIRE]. ADS Google Scholar
X.-G. He and J. Tandean, Hidden Higgs boson at the LHC and light dark matter searches, Phys. Rev. D 84 (2011) 075018 [arXiv:1109.1277] [INSPIRE]. ADS Google Scholar
V. Barger, M. Ishida and W.-Y. Keung, Total width of 125 GeV Higgs, arXiv:1203.3456 [INSPIRE].
J. Cao, Z. Heng, J.M. Yang and J. Zhu, Higgs decay to dark matter in low energy SUSY: is it detectable at the LHC?, arXiv:1203.0694 [INSPIRE].
A. Djouadi, O. Lebedev, Y. Mambrini and J. Quevillon, Implications of LHC searches for Higgs-portal dark matter, Phys. Lett.B 709 (2012) 65 [arXiv:1112.3299] [INSPIRE]. ArticleADS Google Scholar
A. Strumia and F. Vissani, Neutrino masses and mixings and. . . , hep-ph/0606054 [INSPIRE].
J. Basdevant, E.L. Berger, D. Dicus, C. Kao and S. Willenbrock, Final state interaction of longitudinal vector bosons, Phys. Lett.B 313 (1993) 402 [hep-ph/9211225] [INSPIRE]. ArticleADS Google Scholar
V.D. Barger, N.G. Deshpande, J.L. Hewett and T.G. Rizzo, A separate Higgs?, hep-ph/9211234 [INSPIRE].
H. Pois, T.J. Weiler and T.C. Yuan, Higgs boson decay to four fermions including a single top quark below tt threshold, Phys. Rev. D 47 (1993) 3886 [hep-ph/9303277] [INSPIRE]. ADS Google Scholar
A. Stange, W.J. Marciano and S. Willenbrock, Higgs bosons at the Fermilab Tevatron, Phys. Rev. D 49 (1994) 1354 [hep-ph/9309294] [INSPIRE]. ADS Google Scholar
M.A. Diaz and T.J. Weiler, Decays of a fermiophobic Higgs, hep-ph/9401259 [INSPIRE].
E. Gabrielli and B. Mele, Testing effective Yukawa couplings in Higgs searches at the Tevatron and LHC, Phys. Rev. D 82 (2010) 113014 [Erratum ibid.D 83 (2011) 079901] [arXiv:1005.2498] [INSPIRE]. ADS Google Scholar
E. Gabrielli and B. Mele, Effective Yukawa couplings and flavor-changing Higgs boson decays at linear colliders, Phys. Rev. D 83 (2011) 073009 [arXiv:1102.3361] [INSPIRE]. ADS Google Scholar
E. Gabrielli and B. Mele, A radiatively improved fermiophobic Higgs boson scenario, arXiv:1112.5993 [INSPIRE].
H. Haber, G.L. Kane and T. Sterling, The fermion mass scale and possible effects of Higgs bosons on experimental observables, Nucl. Phys. B 161 (1979) 493 [INSPIRE]. ArticleADS Google Scholar
K. Kannike, M. Raidal, D.M. Straub and A. Strumia, Anthropic solution to the magnetic muon anomaly: the charged see-saw, JHEP02 (2012) 106 [arXiv:1111.2551] [INSPIRE]. ArticleADS Google Scholar
A. Falkowski, S. Rychkov and A. Urbano, What if the Higgs couplings to W and Z bosons are larger than in the standard model?, JHEP04 (2012) 073 [arXiv:1202.1532] [INSPIRE]. ArticleADS Google Scholar
H. Baer, V. Barger and A. Mustafayev, Implications of a 125 GeV Higgs scalar for LHC SUSY and neutralino dark matter searches, Phys. Rev.D 85 (2012) 075010 [arXiv:1112.3017] [INSPIRE]. ADS Google Scholar
A. Arbey, M. Battaglia, A. Djouadi, F. Mahmoudi and J. Quevillon, Implications of a 125 GeV Higgs for supersymmetric models, Phys. Lett.B 708 (2012) 162 [arXiv:1112.3028] [INSPIRE]. ArticleADS Google Scholar
A. Arbey, M. Battaglia and F. Mahmoudi, Constraints on the MSSM from the Higgs sector: a pMSSM study of Higgs searches, \(B_s^0 \to {\mu^{+} }{\mu^{-} }\) and dark matter direct detection, Eur. Phys. J. C 72 (2012) 1906 [arXiv:1112.3032] [INSPIRE]. ArticleADS Google Scholar
P. Draper, P. Meade, M. Reece and D. Shih, Implications of a 125 GeV Higgs for the MSSM and low-scale SUSY breaking, Phys. Rev.D 85 (2012) 095007 [arXiv:1112.3068] [INSPIRE]. ADS Google Scholar
M. Kadastik, K. Kannike, A. Racioppi and M. Raidal, Implications of the 125 GeV Higgs boson for scalar dark matter and for the CMSSM phenomenology, JHEP05 (2012) 061 [arXiv:1112.3647] [INSPIRE]. ArticleADS Google Scholar
J. Cao, Z. Heng, D. Li and J.M. Yang, Current experimental constraints on the lightest Higgs boson mass in the constrained MSSM, Phys. Lett.B 710 (2012) 665 [arXiv:1112.4391] [INSPIRE]. ArticleADS Google Scholar
N. Desai, B. Mukhopadhyaya and S. Niyogi, Constraints on invisible Higgs decay in MSSM in the light of diphoton rates from the LHC, arXiv:1202.5190 [INSPIRE].
J. Cao, Z. Heng, J.M. Yang, Y. Zhang and J. Zhu, A SM-like Higgs near 125 GeV in low energy SUSY: a comparative study for MSSM and NMSSM, JHEP03 (2012) 086 [arXiv:1202.5821] [INSPIRE]. ArticleADS Google Scholar
F. Jegerlehner, Implications of low and high energy measurements on SUSY models, arXiv:1203.0806 [INSPIRE].
Z. Kang, T. Li, T. Liu, C. Tong and J.M. Yang, A heavy SM-like higgs and a light stop from Yukawa-deflected gauge mediation, arXiv:1203.2336 [INSPIRE].
D. Curtin, P. Jaiswal and P. Meade, Excluding electroweak baryogenesis in the MSSM, arXiv:1203.2932 [INSPIRE].
N.D. Christensen, T. Han and S. Su, MSSM Higgs bosons at the LHC, arXiv:1203.3207 [INSPIRE].
F. Boudjema and G.D. La Rochelle, BMSSM higgses at 125 GeV, arXiv:1203.3141.
T. Moroi, R. Sato and T.T. Yanagida, Extra matters decree the relatively heavy Higgs of mass about 125 GeV in the supersymmetric model, Phys. Lett.B 709 (2012) 218 [arXiv:1112.3142] [INSPIRE]. ArticleADS Google Scholar
ATLAS collaboration, Search for scalar top quark pair production in natural gauge mediated supersymmetry models with the ATLAS detector in pp collisions at \(\sqrt {s} = 7\;TeV\), ATLAS-CONF-2012-036 (2012).
ATLAS collaboration, Search for supersymmetry in pp collisions at \(\sqrt {s} = 7\;TeV\) in final states with missing transverse momentum and b-jets with the ATLAS detector, ATLAS-CONF-2012-003 (2012).
ATLAS collaboration, Search for gluinos in events with two same-sign leptons, jets and missing transverse momentum with the ATLAS detector in pp collisions at \(\sqrt {s} = 7\;TeV\), ATLAS-CONF-2012-004 (2012).
ATLAS collaboration, Hunt for new phenomena using large jet multiplicities and missing transverse momentum with ATLAS in L = 4_._7 fb −1 of \(\sqrt {s} = 7\;TeV\) proton-proton collisions, ATLAS-CONF-2012-037 (2012).
CMS collaboration, Search for supersymmetry in all-hadronic events with αT , PAS-SUS-11-003 (2011).
ATLAS collaboration, A. Marzin, Searches for third generation SUSY in ATLAS, arXiv:1205.3885 [INSPIRE].
K. Blum, R.T. D’Agnolo and J. Fan, Natural SUSY predicts: Higgs couplings, in preparation.
B. Patt and F. Wilczek, Higgs-field portal into hidden sectors, hep-ph/0605188 [INSPIRE].
C. Burgess, M. Pospelov and T. ter Veldhuis, The minimal model of nonbaryonic dark matter: a singlet scalar, Nucl. Phys. B 619 (2001) 709 [hep-ph/0011335] [INSPIRE]. ArticleADS Google Scholar
D. Larson et al., Seven-year Wilkinson Microwave Anisotropy Probe (WMAP) observations: power spectra and WMAP-derived parameters, Astrophys. J. Suppl.192 (2011) 16 [arXiv:1001.4635] [INSPIRE]. ArticleADS Google Scholar
K. Cheung and T.-C. Yuan, Could the excess seen at 124_-_126 GeV be due to the Randall-Sundrum radion?, Phys. Rev. Lett.108 (2012) 141602 [arXiv:1112.4146] [INSPIRE]. ArticleADS Google Scholar