Large Hadron Electron Collider

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Exotic Higgs Decay at the Large Hadron Electron Collider Chen Zhang ( 张宸 ) (Peking University) 2 nd CLHCP @Peking University Dec 17 th, 2016 Based on Phys. Rev. D 94, 011702 (2016) in collaboration with Yi-Lei Tang and Shou-hua Zhu arxiv: 1608.08458 in collaboration with Shang Liu, Yi-Lei Tang and Shou-hua Zhu

Motivation for Exotic Higgs Decay Searches Two major possibilities for NP to evade current searches (picture from D. E. Morrissey) Exotic Higgs Decays 12/17/2016 2

Strategy of Exotic Higgs Decay Searches: Collider Type Considerations (HL-)LHC Large signal cross sections Large backgrounds Large pile-up Higher thresholds needed to control systematics Significant impact on the performance of objects like jet and MET Electron-positron collider Small backgrounds Pile-up negligible Small signal cross sections As long as the Br is not too small, e+e- machine will provide an ideal environment for probing exotic Higgs decay. Significant impact on exotic Higgs decay searches

Electron-Positron colliders (e.g. CEPC, FCC-ee) are ideal for studying most of the exotic Higgs decays. However, what if such lepton colliders are not available before the end of HL-LHC? Does there exist any other option? 12/17/2016 4

What is the LHeC? The LHeC is a proposed electron-proton collider expected to run synchronously with the HL-LHC. 12/17/2016 5

What is the LHeC? Proposed LHeC parameters: 7 TeV proton beam (from HL-LHC) 60 GeV electron beam (with -80%~-90% polarization) (limited by power consumption) Luminosity as high as 1 ab -1 Detector (including tracker) supposed to have very large pseudorapidity coverage ~200000 Higgs bosons with much smaller backgrounds compared to the HL-LHC! O. Bruening, LHeC Accelerator Studies and Considerations, talk at LHeC 2015 Workshop A. Gaddi, LHeC Detector: Preliminary Engineering Study, talk at LHeC 2015 Workshop 12/17/2016 6

What is the LHeC: Relevance of the LHeC for Higgs Physics Reducing PDF & α S uncertainties for (HL-)LHC Higgs signal strength measurement Probing bottom Yukawa at 1~2% precision and charm Yukawa at O(10%) precision ECFA LHC workshop proceedings 1990; T. Han et al., PRD 82, 016009 (2010) LHeC CDR, JPG 39, 075001 (2012); U. Klein, talk at LHeC workshop 2015; M. Tanaka, talk at LHeC workshop 2015. Exotic Higgs decays Invisible Higgs decay Higgs to 4b 12/17/2016 7

LHeC Invisible Higgs Decay Y. L.Tang, CZ, S. Zhu, Phys. Rev. D 94, 011702 (2016) Well-motivated decay channel for Higgs physics VBF or ZH production needed at the HL-LHC LHeC signal: NC channel Backgrounds: Wje Wjν Zje Other (top, PHP, e+multijet, etc.) 12/17/2016 8

LHeC Invisible Higgs Decay (parton level analysis) Beam 7 TeV proton + 60 GeV electron electron is -90% polarized Energy smearing 0.6 GeV for jets 0.03 for jets,, E E 0.05 GeV for leptons 0.0055 for leptons Basic cuts Cut flow after basic cuts Convention: Proton direction corresponds to positive pseudorapidity. LV pt threshold: 5 GeV for muon, 7 GeV for electron and 20 GeV for visible hadronic tau. LV eta coverage ~ 5.0 Hadronic tau tagging efficiency: 70% Tau decay treated in collinear approximation. Assumptions on visible tau momentum: Leptonic decaying tau: 1/3 Hadronic decaying tau: 1/2 Treatment of tau decay checked with TauDecay package. (K. Hagiwara, T. Li, K. Mawatari and J. Nakamura, 1212.6247) 12/17/2016 Event generation and analysis tools: FeynRules, MG5_aMC@NLO, MadAnalysis 9 PDF: NNPDF2.3 LO

LHeC Invisible Higgs Decay: Results 2 2 CMET V Br(h invisible) Br(h->inv)=6%@2σ level with 1 ab -1 (Parton level, assuming κ V =1.0 )

LHeC Invisible Higgs Decay: Results Detector level study with MVA Probing 4.6% Br @ 2σ with 1 ab -1. (Preliminary results by S. Kawaguchi and M. Kuze, Tokyo Institute of Technology) Comparison with the HL-LHC ZH Channel (ATLAS) VBF Channel projection (CMS): probing 5% Br @ 95%CL with very optimistic assumptions on systematics. 12/17/2016 11

K. Cheung et al., PRL 99, 031801 (2007) M. Carena et al., JHEP 0804, 092 (2008) LHeC Higgs to 4b φ: a spin-0 particle from new physics. Shang Liu, Yi-Lei Tang, CZ and Shou-hua Zhu, 1608.08458 Detector level study in progress with Liverpool LHeC group. D. E. Kaplan et al., PRD 83, 115004 (2011) D. E. Kaplan et al., PLB701, 70 (2011) J. Cao et al., JHEP 1311, 018 (2013) D. Curtin et al., PRD 90, 075004 (2014) ATLAS, 1606.08391 Well motivated signature in extended Higgs sector. Difficult to probe at hadron colliders. LHeC signal: here using CC channel. Backgrounds: CC multijet, CC t/h/w/z+jets, PHP multijet. PHP backgrounds assumed to be negligible after MET requirements and electron tagging. Current analysis is done at parton level. φ mass range targeted in this study: [20,60]GeV, scanned in 1 GeV step. 12/17/2016 12

LHeC Higgs to 4b: Event Selection Jet energy smearing Basic cuts: requiring at least 5 jets satisfying (Electron tagged events are excluded. Charged leptons are vetoed.) MET: (E 0 =40GeV as default) 4b-tagging 4b invariant mass window: 2b invariant mass window: for the correct grouping 12/17/2016 13

LHeC Higgs to 4b: Results 95% CLs upper limit of C 4b2 for 20, 40, 60 GeV phi mass with 1 ab -1 : 0.3%, 0.2%, 0.1% (E 0 =40GeV) For E 0 =60GeV, corresponding limits change to: 0.5%, 0.4%, 0.2% 12/17/2016 14

Interpretation (SM+real singlet scalar) 12/17/2016 15

Conclusion and Discussion Exotic Higgs decays are well-motivated BSM signatures which are worth serious investigations. The LHeC is a proposed electron-proton collider expected to run synchronously with the HL- LHC, with luminosity up to 1 ab -1. The default electron beam is 60 GeV, possibly with high polarization. If a lepton collider with sufficient mass of energy is not available before the end of the HL-LHC, then it would be important to consider DIS as an additional probe of exotic Higgs decays which may yield better or comparable sensitivities due to cleaner environment. It is worthwhile to also consider other exotic Higgs decay searches at the LHeC, especially those which suffer from large backgrounds, pile-up effects and systematic uncertainties. For example, Higgs to bb+met. 12/17/2016 16

Cut Flow Tables for LHeC Higgs to 4b Study 12/17/2016 18

Statistical Treatment (LHeC Higgs to 4b) A. L. Read, J. Phys. G28, 2693 (2002) G. Cowan, 1307.2487 12/17/2016 19

Statistical Treatment (LHeC Higgs to 4b) 5σ Discovery: CDF[PoissonDistribution[b],Median[PoissonDistribution[s+b]]-1] >= CDF[NormalDistribution[0,1],5] 95% CLs exclusion: CDF[PoissonDistribution[s+b],Median[PoissonDistribution[b]]] CDF[PoissonDistribution[b],Median[PoissonDistribution[b]]] = alpha 12/17/2016 20

Sensitivity Comparison (LHeC Higgs to 4b) ATLAS, 1606.08391 12/17/2016 21

Interpretation (LHeC Higgs to 4b) Higgs singlet extension of the SM: adding a real singlet scalar to SM, assuming a Z 2 symmetry (which is spontaneously broken) to simplify parameter space. Lagrangian: Rotation to mass eigenstates: Parameter counting: 5 parameters with 2 already fixed. The remaining parameters can be chose as the mass of the additional scalar, the mixing angle between two scalars, and the ratio of the vevs. T. Robens et al., EPJC 75, 104 (2015) 12/17/2016 22

Interpretation (LHeC Higgs to 4b) D. Curtin et al., JHEP 06, 025 (2015) 12/17/2016 23

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