Searching for new physics in the three-body decays of the Higgs-like particle (original) (raw)
ATLAS collaboration, Observation of a new particle in the search for the Standard Model Higgs boson with the ATLAS detector at the LHC, Phys. Lett. B 716 (2012) 1 [arXiv:1207.7214] [INSPIRE]. ADS Google Scholar
CMS collaboration, Observation of a new boson at a mass of 125 GeV with the CMS experiment at the LHC, Phys. Lett. B 716 (2012) 30 [arXiv:1207.7235] [INSPIRE]. ADS Google Scholar
P.P. Giardino, K. Kannike, I. Masina, M. Raidal and A. Strumia, The universal Higgs fit, arXiv:1303.3570 [INSPIRE].
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]. ADS Google Scholar
Y. Bai, V. Barger, L.L. Everett and G. Shaughnessy, The 2HDM-X and Large Hadron Collider Data, Phys. Rev. D 87 (2013) 115013 [arXiv:1210.4922] [INSPIRE]. ADS Google Scholar
A. Drozd, B. Grzadkowski, J.F. Gunion and Y. Jiang, Two-Higgs-doublet models and enhanced rates for a 125 GeV Higgs, JHEP05 (2013) 072 [arXiv:1211.3580] [INSPIRE]. ArticleADS Google Scholar
J. Chang, K. Cheung, P.-Y. Tseng and T.-C. Yuan, Implications on the Heavy CP-even Higgs Boson from Current Higgs Data, Phys. Rev. D 87 (2013) 035008 [arXiv:1211.3849] [INSPIRE]. ADS Google Scholar
C.-W. Chiang and K. Yagyu, Implications of Higgs boson search data on the two-Higgs doublet models with a softly broken Z 2 symmetry, JHEP07 (2013) 160 [arXiv:1303.0168] [INSPIRE]. ArticleADS Google Scholar
B. Grinstein and P. Uttayarat, Carving Out Parameter Space in Type-II Two Higgs Doublets Model, JHEP06 (2013) 094 [Erratum ibid.1309 (2013) 110] [arXiv:1304.0028] [INSPIRE]. ArticleADS Google Scholar
Muon Collider/Neutrino Factory collaboration, M.M. Alsharoa et al., Recent progress in neutrino factory and muon collider research within the Muon collaboration, Phys. Rev. ST Accel. Beams6 (2003) 081001 [hep-ex/0207031] [INSPIRE]. ArticleADS Google Scholar
ILC collaboration, G. Aarons et al., International Linear Collider Reference Design Report Volume 2: Physics at the ILC, arXiv:0709.1893 [INSPIRE].
L. Linssen, A. Miyamoto, M. Stanitzki, H. Weerts and D.J. Feldman, Physics and Detectors at CLIC: CLIC Conceptual Design Report, arXiv:1202.5940 [INSPIRE].
D. Chang, W.-Y. Keung and I. Phillips, CP odd correlation in the decay of neutral Higgs boson into ZZ, W + W − , or t \( \overline{t} \), Phys. Rev. D 48 (1993) 3225 [hep-ph/9303226] [INSPIRE]. ADS Google Scholar
T. Arens and L. Sehgal, Energy spectra and energy correlations in the decay H →ZZ →μ + μ − μ + μ −, Z. Phys. C 66 (1995) 89 [hep-ph/9409396] [INSPIRE]. ADS Google Scholar
B. Grzadkowski and J. Gunion, Using decay angle correlations to detect CP-violation in the neutral Higgs sector, Phys. Lett. B 350 (1995) 218 [hep-ph/9501339] [INSPIRE]. ArticleADS Google Scholar
C. Buszello, I. Fleck, P. Marquard and J. van der Bij, Prospective analysis of spin- and CP-sensitive variables in H → ZZ → \( l_1^{+}l_1^{-}l_2^{+}l_2^{-} \) at the LHC, Eur. Phys. J. C 32 (2004) 209 [hep-ph/0212396] [INSPIRE]. ArticleADS Google Scholar
S. Choi, D.J.. Miller, M. Muhlleitner and P. Zerwas, Identifying the Higgs spin and parity in decays to Z pairs, Phys. Lett. B 553 (2003) 61 [hep-ph/0210077] [INSPIRE]. ArticleADS Google Scholar
A. Bredenstein, A. Denner, S. Dittmaier and M. Weber, Precise predictions for the Higgs-boson decay H → W W/ZZ → 4 leptons, Phys. Rev. D 74 (2006) 013004 [hep-ph/0604011] [INSPIRE]. ADS Google Scholar
A. Bredenstein, A. Denner, S. Dittmaier and M. Weber, Radiative corrections to the semileptonic and hadronic Higgs-boson decays H → W W/ZZ → 4 fermions, JHEP02 (2007) 080 [hep-ph/0611234] [INSPIRE]. ArticleADS Google Scholar
Q.-H. Cao, C. Jackson, W.-Y. Keung, I. Low and J. Shu, The Higgs Mechanism and Loop-induced Decays of a Scalar into Two Z Bosons, Phys. Rev. D 81 (2010) 015010 [arXiv:0911.3398] [INSPIRE]. ADS Google Scholar
A. De Rujula, J. Lykken, M. Pierini, C. Rogan and M. Spiropulu, Higgs look-alikes at the LHC, Phys. Rev. D 82 (2010) 013003 [arXiv:1001.5300] [INSPIRE]. ADS Google Scholar
P. Avery, D. Bourilkov, M. Chen, T. Cheng, A. Drozdetskiy et al., Precision Studies of the Higgs Golden Channel H → ZZ* → 4_l. Part I. Kinematic discriminants from leading order matrix elements_, Phys. Rev. D 87 (2013) 055006 [arXiv:1210.0896] [INSPIRE]. ADS Google Scholar
S. Choi, M. Muhlleitner and P. Zerwas, Theoretical Basis of Higgs-Spin Analysis in H → γγ and Zγ Decays, Phys. Lett. B 718 (2013) 1031 [arXiv:1209.5268] [INSPIRE]. ArticleADS Google Scholar
S. Bolognesi et al., On the spin and parity of a single-produced resonance at the LHC, Phys. Rev. D 86 (2012) 095031 [arXiv:1208.4018] [INSPIRE]. ADS Google Scholar
CMS collaboration, Study of the Mass and Spin-Parity of the Higgs Boson Candidate Via Its Decays to Z Boson Pairs, Phys. Rev. Lett. 110 (2013) 081803 [arXiv:1212.6639] [INSPIRE]. ArticleADS Google Scholar
CMS collaboration, Properties of the Higgs-like boson in the decay H → ZZ → 4_l in pp collisions at_ \( \sqrt{s}=7 \) and 8 TeV, CMS-PAS-HIG-13-002 (2013).
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).
D. Stolarski and R. Vega-Morales, Directly Measuring the Tensor Structure of the Scalar Coupling to Gauge Bosons, Phys. Rev. D 86 (2012) 117504 [arXiv:1208.4840] [INSPIRE]. ADS Google Scholar
A. Manohar and H. Georgi, Chiral Quarks and the Nonrelativistic Quark Model, Nucl. Phys.B 234 (1984) 189 [INSPIRE]. ArticleADS Google Scholar
E.E. Jenkins, A.V. Manohar and M. Trott, Naive Dimensional Analysis Counting of Gauge Theory Amplitudes and Anomalous Dimensions, arXiv:1309.0819 [INSPIRE].
W. Buchmüller and D. Wyler, Effective Lagrangian Analysis of New Interactions and Flavor Conservation, Nucl. Phys. B 268 (1986) 621 [INSPIRE]. ArticleADS Google Scholar
B. Grinstein and M.B. Wise, Operator analysis for precision electroweak physics, Phys. Lett.B 265 (1991) 326 [INSPIRE]. ArticleADS Google Scholar
M.E. Peskin and T. Takeuchi, A New constraint on a strongly interacting Higgs sector, Phys. Rev. Lett. 65 (1990) 964 [INSPIRE]. ArticleADS Google Scholar
B. Holdom and J. Terning, Large corrections to electroweak parameters in technicolor theories, Phys. Lett. B 247 (1990) 88 [INSPIRE]. ArticleADS Google Scholar
G. Altarelli and R. Barbieri, Vacuum polarization effects of new physics on electroweak processes, Phys. Lett. B 253 (1991) 161 [INSPIRE]. ArticleADS Google Scholar
M. Golden and L. Randall, Radiative Corrections to Electroweak Parameters in Technicolor Theories, Nucl. Phys. B 361 (1991) 3 [INSPIRE]. ArticleADS Google Scholar
M.E. Peskin and T. Takeuchi, Estimation of oblique electroweak corrections, Phys. Rev. D 46 (1992) 381 [INSPIRE]. ADS Google Scholar
R. Barbieri, A. Pomarol, R. Rattazzi and A. Strumia, Electroweak symmetry breaking after LEP-1 and LEP-2, Nucl. Phys. B 703 (2004) 127 [hep-ph/0405040] [INSPIRE]. ArticleADS Google Scholar
CMS collaboration, Search for contact interactions in μ + μ − events in pp collisions at \( \sqrt{s}=7 \) TeV, Phys. Rev. D 87 (2013), no. 3032001 [arXiv:1212.4563] [INSPIRE].
ATLAS collaboration, Search for contact interactions and large extra dimensions in dilepton events from pp collisions at \( \sqrt{s}=7 \) TeV with the ATLAS detector, Phys. Rev. D 87 (2013) 015010 [arXiv:1211.1150] [INSPIRE]. ADS Google Scholar
A.V. Manohar, An Exactly Solvable Model for Dimension Six Higgs Operators and h → γγ, arXiv:1305.3927 [INSPIRE].
T. Appelquist and G.-H. Wu, The electroweak chiral Lagrangian and new precision measurements, Phys. Rev. D 48 (1993) 3235 [hep-ph/9304240] [INSPIRE]. ADS Google Scholar
W.D. Goldberger, B. Grinstein and W. Skiba, Distinguishing the Higgs boson from the dilaton at the Large Hadron Collider, Phys. Rev. Lett. 100 (2008) 111802 [arXiv:0708.1463] [INSPIRE]. ArticleADS Google Scholar
C.G. Callan Jr., S.R. Coleman, J. Wess and B. Zumino, Structure of phenomenological Lagrangians. 2., Phys. Rev. 177 (1969) 2247 [INSPIRE]. ArticleADS Google Scholar
Particle Data Group collaboration, J. Beringer et al., Review of Particle Physics (RPP), Phys. Rev. D 86 (2012) 010001 [INSPIRE]. ADS Google Scholar
CMS collaboration, Search for the standard model Higgs boson in the Z boson plus a photon channel in pp collisions at \( \sqrt{s}=7 \) and 8 TeV, CMS-PAS-HIG-13-006 (2013).
G. Isidori, A.V. Manohar and M. Trott, Probing the nature of the Higgs-like Boson via h_→_VF decays, arXiv:1305.0663 [INSPIRE].