Higgs pair production: choosing benchmarks with cluster analysis

A bstractNew physics theories often depend on a large number of free parameters. The phenomenology they predict for fundamental physics processes is in some cases drastically affected by the precise value of those free parameters, while in other cases is left basically invariant at the level of detail experimentally accessible. When designing a strategy for the analysis of experimental data in the search for a signal predicted by a new physics model, it appears advantageous to categorize the parameter space describing the model according to the corresponding kinematical features of the final state. A multi-dimensional test statistic can be used to gauge the degree of similarity in the kinematics predicted by different models; a clustering algorithm using that metric may allow the division of the space into homogeneous regions, each of which can be successfully represented by a benchmark point. Searches targeting those benchmarks are then guaranteed to be sensitive to a large area of the parameter space.In this document we show a practical implementation of the above strategy for the study of non-resonant production of Higgs boson pairs in the context of extensions of the standard model with anomalous couplings of the Higgs bosons. A non-standard value of those couplings may significantly enhance the Higgs boson pair-production cross section, such that the process could be detectable with the data that the LHC will collect in Run 2.

[1]  A. Falkowski Effective field theory approach to LHC Higgs data , 2015, 1505.00046.

[2]  Martino Dall'Osso,et al.  Analytical parametrization and shape classification of anomalous HH production in the EFT approach , 2016, 1608.06578.

[3]  Atlas Publications Measurements of the Higgs boson production and decay rates and coupling strengths using pp collision data at √ s = 7 and 8 TeV in the ATLAS experiment , 2015 .

[4]  T. Plehn,et al.  PAIR PRODUCTION OF NEUTRAL HIGGS PARTICLES IN GLUON-GLUON COLLISIONS , 1996 .

[5]  C. Jackson,et al.  Higgs-pair production and measurement of the triscalar coupling at LHC(8,14) , 2013, 1311.2931.

[6]  L. Shang,et al.  Pair production of a 125 GeV Higgs boson in MSSM and NMSSM at the ILC , 2013, 1306.0279.

[7]  E. Salvioni,et al.  Higgs low-energy theorem (and its corrections) in composite models , 2012, 1206.7120.

[8]  M. Spira,et al.  Higgs bosons strongly coupled to the top quark , 1997, hep-ph/9711410.

[9]  R. Contino,et al.  Effective field theory analysis of double Higgs production via gluon fusion , 2015, 1502.00539.

[10]  Ian Low,et al.  Double take on new physics in double Higgs boson production , 2014, 1405.7040.

[11]  R. Frederix,et al.  Higgs pair production at the LHC with NLO and parton-shower effects , 2014, 1401.7340.

[12]  D. Florian,et al.  Next-to-Next-to-Leading Order QCD Corrections to Higgs Boson Pair Production , 2014, 1405.4704.

[13]  Wen-Long Sang,et al.  2022 Next-to-leading-order QCD correction to the exclusive double charmonium production via Z decays , 2017 .

[14]  A. Shivaji,et al.  ttH anomalous coupling in double Higgs production , 2013, 1309.6907.

[15]  A. Pomarol,et al.  BSM Primary effects , 2014, DIS 2014.

[16]  Florian Goertz,et al.  Electroweak Symmetry Breaking without the $\mu^2$ Term , 2015, 1504.00355.

[17]  Howard Georgi,et al.  Anatomy of a composite Higgs model , 1985 .

[18]  M. Tosi,et al.  Analytical parametrization and shape classication of anomalous HH production in the EFT approach - LHCHXSWG-INT-2015-007 , 2016 .

[19]  R. Frederix,et al.  The automated computation of tree-level and next-to-leading order differential cross sections, and their matching to parton shower simulations , 2014, 1405.0301.

[20]  S. Dawson,et al.  What's in the loop? The anatomy of double Higgs production , 2015, 1504.05596.

[21]  S. Bentvelsen,et al.  Phenomenology of the trilinear Higgs coupling at proton-proton colliders , 2014, 1408.5010.

[22]  A. Barr,et al.  Higgs self-coupling measurements at a 100 TeV hadron collider , 2014, 1412.7154.

[23]  G. Zech,et al.  A new class of binning free, multivariate goodness-of-fit tests: the energy tests , 2002 .

[24]  A. Falkowski,et al.  Higgs Basis: Proposal for an EFT basis choice for LHC HXSWG , 2015 .

[25]  Christoph Englert,et al.  Di-Higgs phenomenology: The forgotten channel , 2014, 1409.8074.

[26]  D. Zeppenfeld,et al.  Anomalous Higgs boson couplings in vector boson fusion at the CERN LHC , 2006, hep-ph/0609075.

[27]  Florian Goertz Indirect handle on the down-quark Yukawa coupling. , 2014, Physical review letters.

[28]  J. Huston,et al.  CT10 next-to-next-to-leading order global analysis of QCD , 2014 .

[29]  Karl Nordstrom,et al.  hhjj production at the LHC , 2015, 1506.08008.

[30]  W. Yao,et al.  Studies of measuring Higgs self-coupling with $HH\rightarrow b\bar b \gamma\gamma$ at the future hadron colliders , 2013, 1308.6302.

[31]  K. Melnikov,et al.  Virtual corrections to Higgs boson pair production in the large top quark mass limit , 2014, 1408.2422.

[32]  A. Papaefstathiou Discovering Higgs boson pair production through rare final states at a 100 TeV collider , 2015, 1504.04621.

[33]  J. Streicher,et al.  NLO QCD corrections to Higgs pair production including dimension-6 operators , 2015, 1504.06577.

[34]  E. Vryonidou,et al.  Higgs pair production via gluon fusion in the Two-Higgs-Doublet Model , 2014, 1407.0281.

[35]  S. Forte,et al.  BFKL at Next-to-Next-to-Leading Order , 2007, 0704.2404.

[36]  Jin Min Yang,et al.  Pair production of a 125GeV Higgs boson in MSSM and NMSSM at the LHC , 2013, 1301.6437.

[37]  J. T. Childers,et al.  Search for Higgs Boson Pair Production in the gamma gamma b(b)over-bar Final State Using pp Collision Data at root s=8 TeV from the ATLAS Detector , 2015 .

[38]  S. S. Wilks The Large-Sample Distribution of the Likelihood Ratio for Testing Composite Hypotheses , 1938 .

[39]  Robert Cousins,et al.  Clarification of the use of CHI-square and likelihood functions in fits to histograms , 1984 .

[40]  Matthias Steinhauser,et al.  Higgs boson pair production: top quark mass effects at NLO and NNLO , 2015, 1508.00909.

[41]  S. Fichet,et al.  A Bayesian view of the Higgs sector with higher dimensional operators , 2013, 1304.3369.

[42]  Andreas Papaefstathiou,et al.  Higgs boson pair production in the D = 6 extension of the SM , 2014, 1410.3471.

[43]  W. Yao,et al.  Probing new physics of cubic Higgs boson interaction via Higgs pair production at hadron colliders , 2015, 1506.03302.

[44]  R. Contino,et al.  Effective field theory analysis of double Higgs boson production via gluon fusion , 2015 .

[45]  C. Collaboration,et al.  Precise determination of the mass of the Higgs boson and tests of compatibility of its couplings with the standard model predictions using proton collisions at 7 and 8 TeV , 2014, 1412.8662.

[46]  W. Yao,et al.  Studies of measuring Higgs self-coupling with HH → bb̄γγ at the future hadron colliders , 2013 .

[47]  D. Rathlev,et al.  Differential Higgs boson pair production at next-to-next-to-leading order in QCD , 2013, Physical review letters.

[48]  The Cms Collaboration Observation of a new boson at a mass of 125 GeV with the CMS experiment at the LHC , 2012, 1207.7235.

[49]  Francesco Riva,et al.  Model-independent precision constraints on dimension-6 operators , 2014, 1411.0669.

[50]  A. Pomarol,et al.  Higgs windows to new physics through d = 6 operators: constraints and one-loop anomalous dimensions , 2013, 1308.1879.

[51]  K. Mawatari,et al.  A framework for Higgs characterisation , 2013, 1306.6464.

[52]  S. Frixione,et al.  NLO QCD corrections in Herwig++ with MC@NLO , 2010, 1010.0568.

[53]  D. Wyler,et al.  Effective lagrangian analysis of new interactions and flavour conservation , 1986 .

[54]  A. Pettitt A two-sample Anderson-Darling rank statistic , 1976 .

[55]  Francesco Riva,et al.  Towards the ultimate SM fit to close in on Higgs physics , 2013, 1308.2803.

[56]  P. Maierhöfer,et al.  Higgs boson pair production merged to one jet , 2013, 1401.0007.

[57]  Chanyong Park,et al.  Spiky Strings on AdS$_4 \times {\bf CP}^3$ , 2008 .

[58]  Tao Liu,et al.  Measuring Di-Higgs Physics via the $t \bar t hh \to t \bar t b \bar bb\bar b$ Channel , 2014, 1410.1855.

[59]  Jin Min Yang,et al.  Higgs pair production with SUSY QCD correction: revisited under current experimental constraints , 2013, 1307.3790.

[60]  Jin-zhong Han,et al.  Impact of top-Higgs couplings on Di-Higgs production at future colliders , 2014, 1408.4191.

[61]  Andreas Papaefstathiou,et al.  Higgs boson self-coupling measurements using ratios of cross sections , 2013, 1301.3492.

[62]  Li Lin Yang,et al.  Higgs boson pair production at the LHC in the $b \bar{b} W^+ W^-$ channel , 2012, 1209.1489.

[63]  T. Plehn,et al.  The Higgs legacy of the LHC Run I , 2015, 1505.05516.

[64]  Jae Sik Lee,et al.  An exploratory study of Higgs-boson pair production , 2015, 1505.00957.

[65]  J. T. Childers,et al.  Search for Higgs boson pair production in the $$b\bar{b}b\bar{b}$$bb¯bb¯ final state from pp collisions at $$\sqrt{s} = 8$$s=8 TeVwith the ATLAS detector , 2015 .

[66]  E. Vryonidou,et al.  Top-quark mass effects in double and triple Higgs production in gluon-gluon fusion at NLO , 2014, 1408.6542.

[67]  M. Spannowsky,et al.  Standard model Higgs boson pair production in the (bb¯$$ b\overline{b} $$)(bb¯$$ b\overline{b} $$) final state , 2014, 1404.7139.

[68]  C. Grojean,et al.  The Strongly-Interacting Light Higgs , 2007, hep-ph/0703164.

[69]  J. Bij,et al.  HIGGS BOSON PAIR PRODUCTION VIA GLUON FUSION , 1988 .

[70]  D. Florian,et al.  Higgs pair production at next-to-next-to-leading logarithmic accuracy at the LHC , 2015, Journal of High Energy Physics.

[71]  Christoph Englert,et al.  Di-Higgs phenomenology in tt̄hh: The forgotten channel , 2015 .

[72]  Jian Wang,et al.  Threshold resummation effects in Higgs boson pair production at the LHC , 2013, 1301.1245.

[73]  S. Forte,et al.  Precision determination of electroweak parameters and the strange content of the proton from neutrino deep-inelastic scattering , 2009, 0906.1958.

[74]  Matthew J. Dolan,et al.  New physics in LHC Higgs boson pair production , 2012, 1210.8166.

[75]  Ben Cooper,et al.  Non-resonant Higgs-pair production in the $$b\overline{b}$$bb¯$$b\overline{b}$$bb¯ final state at the LHC , 2014, 1410.2794.

[76]  D. Soper,et al.  Angular distribution of dileptons in high-energy hadron collisions , 1977 .

[77]  Ben Cooper,et al.  Non-resonant Higgs-pair production in the bbbb final state at the LHC , 2015 .

[78]  Yang Zhang,et al.  Exploring the Higgs sector of a most natural NMSSM and its prediction on Higgs pair production at the LHC , 2014, 1409.8431.

[79]  Christophe Grojean,et al.  Effective Lagrangian for a light Higgs-like scalar , 2013, 1303.3876.