Search for Invisible Higgs Decays at the ILC Ayumi Yamamoto, Akimasa Ishikawa, Hitoshi Yamamoto (Tohoku University) Keisuke Fujii (KEK)

Slides:

Advertisements

Similar presentations

Feasibility study of measurement of Higgs pair creation in a gamma-gamma collider Shin-ichi Kawada Advanced Sciences of Matter, Hiroshima University LCWS11.

Advertisements

Higgs branching ratios study Oct Hiroaki Ono (NDU) Oct ILC Physics WG general meeting.

Investigation on Higgs physics Group Ye Li Graduate Student UW - Madison.

Model independent determination of the top quark Yukawa coupling from LHC and ILC data Klaus Desch, Hamburg University Markus Schumacher, Bonn University.

Visible and Invisible Higgs Decays at 350 GeV Mark Thomson University of Cambridge =+

Light Dark Matter Search in B-factory O. Tajima (KEK) for Belle collaboration.

Recent Electroweak Results from the Tevatron Weak Interactions and Neutrinos Workshop Delphi, Greece, 6-11 June, 2005 Dhiman Chakraborty Northern Illinois.

LHC pp beam collision on March 13, 2011 Haijun Yang

Introduction to Single-Top Single-Top Cross Section Measurements at ATLAS Patrick Ryan (Michigan State University) The measurement.

Takeo Higuchi Institute of Particle and Nuclear Studies, KEK Jan 21, 2004 Hawaii, USA Super B Factory Workshop Charged Higgs Search with B  D   

WW  e ν 14 April 2007 APS April Meeting WW/WZ production in electron-neutrino plus dijet final state at CDFAPS April Meeting April 2007 Jacksonville,

1 ZH Analysis Yambazi Banda, Tomas Lastovicka Oxford SiD Collaboration Meeting

1 Simulation study of e + e -  W H + W H - Introduction Observable to be measured Analysis framework Event selection Results Rei Sasaki (Tohoku University)

1 A Preliminary Model Independent Study of the Reaction pp  qqWW  qq ℓ qq at CMS  Gianluca CERMINARA (SUMMER STUDENT)  MUON group.

Taikan Suehara et al., Beijing, 2010/3/29 page 1 Simulation study of W + DM signature for identification of new physics Taikan Suehara (ICEPP,

ESFA/DESY LC Workshop 1 Klaus Mönig and Jadranka Sekaric Klaus Mönig and Jadranka Sekaric DESY - Zeuthen MEASUREMENT OF TGC IN e  COLLISIONS AT TESLA.

Precise Measurements of SM Higgs at the ILC Simulation and Analysis V.Saveliev, Obninsk State University, Russia /DESY, Hamburg ECFA Study Workshop, Valencia.

Search for Invisible Higgs Decays at the ILC Akimasa Ishikawa (Tohoku University)

1 HEP 2008, Olympia, Greece Ariadni Antonaki Dimitris Fassouliotis Christine Kourkoumelis Konstantinos Nikolopoulos University of Athens Studies for the.

Akimasa Ishikawa (Tohoku University)

HERA-LHC, CERN Oct Preliminary study of Z+b in ATLAS /1 A preliminary study of Z+b production in ATLAS The D0 measurement of  (Z+b)/  (Z+jet)

Sensitivity Prospects for Light Charged Higgs at 7 TeV J.L. Lane, P.S. Miyagawa, U.K. Yang (Manchester) M. Klemetti, C.T. Potter (McGill) P. Mal (Arizona)

Studying Very Light Gravitino at ILC Ryo Katayama (Tokyo) Collaborators: Shigeki Matsumoto (IPMU), T. Moroi (Tokyo), K. Fujii (KEK), T. Suehara (ICEPP),T.

14-18 November, PrahaECFA/DESY Linear Collider Workshop 1 TRILINEAR GAUGE COUPLINGS AT PHOTON COLLIDER - e  mode DESY - Zeuthen Klaus Mönig and Jadranka.

Measurement of the branching ratios for Standard Model Higgs decays into muon pairs and into Z boson pairs at 1.4 TeV CLIC Gordana Milutinovic-Dumbelovic,

LCWS14, Belgrade, October M. Pandurović, H→WW at 350 GeV and 1.4 TeV CLIC Measurement of H→WW* in HZ at 350 GeV and WW fusion at 1.4 TeV CLIC.

Status of tth analysis 1. √s=500 GeV 2. √s=1 TeV 3. MC requests R. Yonamine, T. Tanabe, K. Fujii T. Price, H. Tabassam, N. Watson, V. Martin ILD Workshop,

Taikan Suehara et al., TILC09 in Tsukuba, 2009/04/18 page 1 Tau and SUSY study in ILD Taikan Suehara ICEPP, The Univ. of Tokyo Jenny List, Daniela Kaefer.

Searches for the Standard Model Higgs at the Tevatron presented by Per Jonsson Imperial College London On behalf of the CDF and DØ Collaborations Moriond.

Moriond QCD 2001Enrico Piotto EP division CERN SM Higgs Search at LEP in Channels other than 4 Jets Enrico Piotto EP Division, CERN SM Higgs Search at.

Report on LHT at the LHC ～ Some results from simulation study ～ Shigeki Matsumoto (Univ. of Toyama) 1.What kinds of LHT signals are expected, and how accurately.

Taikan Suehara, 16 th general meeting of ILC physics (Asia) wg., 2010/07/17 page 1 Model 500 GeV Taikan Suehara ICEPP, The Univ. of Tokyo.

Higgs Reach Through VBF with ATLAS Bruce Mellado University of Wisconsin-Madison Recontres de Moriond 2004 QCD and High Energy Hadronic Interactions.

1 EPS2003, Aachen Nikos Varelas ELECTROWEAK & HIGGS PHYSICS AT DØ Nikos Varelas University of Illinois at Chicago for the DØ Collaboration

INCLUSIVE STANDARD MODEL HIGGS SEARCHES HIGGS SEARCHES WITH ATLAS Francesco Polci LAL Orsay On behalf of the ATLAS collaboration. SUSY08 – Seoul (Korea)

Report on ttH Analysis S. Uozumi (Kobe) R. Yonamine (GUAS) K. Fujii (KEK) Mar PhysicsWG meeting.

Search for the Higgs boson in H  ZZ (*) decay modes on ATLAS German D Carrillo Montoya, Lashkar Kashif University of Wisconsin-Madison On behalf of the.

John MarshallHZ Recoil Mass1 HZ Recoil Mass Analysis: Production Requests LCD WG6 Meeting, 28/02/2012 J.S. Marshall, University of Cambridge.

Update on WH to 3 lepton Analysis And Electron Trigger Efficiencies with Tag And Probe Nishu 1, Suman B. Beri 1, Guillelmo Gomez Ceballos 2 1 Panjab University,

Search for Higgs portal Dark matter Tohoku Ayumi Yamamoto 11/5 2011/11/51.

Abstract Several models of elementary particle physics beyond the Standard Model, predict the existence of neutral particles that can decay in jets of.

Summary of MC requests for DBD benchmarks ILD Workshop, Kyushu University May 23,

Top Higgs Yukawa Coupling Analysis – Status Report Hajrah Tabassam Quai-i-Azam University, Islamabad ON BEHALF OF: R. Yonamine, T. Tanabe, K. Fujii, KEK.

University of Iowa Study of qq->qqH  qq ZZ Alexi Mestvirishvili November 2004, CMS PRS Workshop at FNAL.

Feasibility study of Higgs pair creation in gamma-gamma collider Hiroshima University Nozomi Maeda 19.April 2009.

La Thuile, March, 15 th, 2003 f Makoto Tomoto ( FNAL ) Prospects for Higgs Searches at DØ Makoto Tomoto Fermi National Accelerator Laboratory (For the.

Higgs pair production in a Photon Collider Tohru Takahashi Hiroshima University for S.Kawada, N.Maeda, K.Ikematsu, K.Fujii,Y.Kurihara,,, 1 LCWS12 Arlington,

H. Jürgen Schreiber, ECFA/DESY Prague, Nov Future e + e - Collider Sensitivity to the HZ  Coupling M. Dubinin, H.J. Schreiber and A. Vologdin Standard.

Stano Tokar, slide 1 Top into Dileptons Stano Tokar Comenius University, Bratislava With a kind permissison of the CDF top group Dec 2004 RTN Workshop.

Measurements of the model parameter in the Littlest Higgs Model with T-parity 1 Masaki Asano (ICRR, Univ. of Tokyo) Collaborator: E. Asakawa ( Meiji-gakuin.

Taikan Suehara, 15 th general meeting of ILC physics (Asia) wg., 2010/05/15 page 1 Model 500 GeV Taikan Suehara ICEPP, The Univ. of Tokyo.

Measurement the Higgs mass via the channel: e + e - → Z H → e + e - + X & Analog vs. Digital Energy Reconstruction in the Si-W ECal Youssef KHOULAKI ILCP.

Search for Charged Higgs Production Associated with W boson with the ILD at the ILC Akimasa Ishikawa for Yuko Shinzaki (Tohoku University) Jan Strube,

Taikan Suehara et al., Tokyo, 12 Nov page 1 Taikan Suehara (Kyushu) A. Miyamoto (KEK), T. Tomita (Kyushu) Higgs recoil mass analysis: status.

Report on New Physics Subgroup Activities Masaki Asano (Tohoku U.) The 9th general meeting of the ILC physics working group Sorry, we have no progress.

Viktor Veszpremi Purdue University, CDF Collaboration Tev4LHC Workshop, Oct , Fermilab ZH->vvbb results from CDF.

Search for Standard Model Higgs in ZH  l + l  bb channel at DØ Shaohua Fu Fermilab For the DØ Collaboration DPF 2006, Oct. 29 – Nov. 3 Honolulu, Hawaii.

Higgs Recoil Mass Measurement and ZH Cross Section Tim Barklow, Awatif Belymam SLAC Feb 24, 2009.

A Search for Higgs Decaying to WW (*) at DØ presented by Amber Jenkins Imperial College London on behalf of the D  Collaboration Meeting of the Division.

Higgs branching ratios study for DBD ILC physics WG general meeting Jan H. Ono (NDU) Jan ILC physics WG general meeting 1.

Bounds on light higgs in future electron positron colliders

Discrimination of new physics models with ILC

The Top Quark at CDF Production & Decay Properties

Search for Invisible Higgs Decays at the ILC

Search for Invisible Higgs Decays at the ILC

BSM search using Higgs to invisible decay at the ILC

LCWS10 & ILC10, Beijing, China, March 2010

Strong Electroweak Symmetry Breaking from

mSUGRA SUSY Searches at the LHC

Study of Hb`b, c`c and gg in the `H channel

Presentation transcript:

Search for Invisible Higgs Decays at the ILC Ayumi Yamamoto, Akimasa Ishikawa, Hitoshi Yamamoto (Tohoku University) Keisuke Fujii (KEK)

Invisible Higgs Decay In the SM, an invisible Higgs decay is H  ZZ*  4 process and its BF is small ~0.1% If we found sizable invisible Higgs decays, it is clear new physics signal. – The decay products are dark matter candidates. At the LHC, one can search for invisible Higgs decays by using recoil mass from Z or summing up BFs of observed decay modes with some assumptions. – The upper limit is O(10%). At the ILC, we can search for invisible Higgs decays using a recoil mass technique with model independent way! – e+e-  ZH knownmeasured

Signal and Backgrounds Signal – e+e-  ZH  (qq)(DM DM) Backgrounds – e+e-  ZZ, Z, WW, e W, eeZ – ZH  (qq)(ZZ*)  (qq)(4 ) : irreducible – ZH  ( )(ZZ*)  ( )(qq)( ) Z e-e- Z* e+e+ H DM q q signal e e-e- Z Z q q e- e- e+ e+ Z W W q q e- e- e Z W W l q q e- e- e W W γ e- e- q q e- e- e γ Z q q e- e- e+ e+

MC setup and Samples Generator : physsim – for both signal and backgrounds – E CM = 250GeV – Higgs mass 125GeV – H  DM DM Fermion dark matter Dark matter mass 50GeV, well below the pair production threshold – Polarization of P(e+,e-)=(-30%,+80%) to suppress W involving background Fast simulator : JSFQuickSim Samples – Two sets of signal and backgrounds – One used to determine selections, the other for efficiency and PDF for toy MC events for each signal sample 1ab -1 data for each backgrounds samples.

Overview of the Selections Durham jet algorithm – Two-jet reconstruction No isolated leptons No forward going electrons Z mass reconstructed from di-jet – Also used for Likelihood ratio cut cos(  Z ) – Production angle of Z – Just apply < 0.99 cut to eliminate peaky eeZ background before making likelihood ratio Likelihood ratio of Z mass, cos(  Z ), cos(  hel ) – cos(  hel ) : Helicity angle of Z Recoil mass – The final plot – Fitted to set upper limit.

No Isolated Leptons Isolated lepton selections – Lepton candidate energy > 10 GeV – Measured energy within a cone of cos  = 0.94 < 10GeV eeZ e-e- e γ Z q q e-e- e+e+ e- e- e Z W W l q q Z e-e- Z* e+e+ H DM q q eeZ WW signal WW

No Forward Going Electrons Since no forward detectors in the QuickSim, we look at generator information. – Electron with energy > 5GeV – Electron within FCal acceptance, 0.98 < |cosq| < Z e-e- Z* e+e+ H DM q q eeZ e W signal e-e- e γ Z q q e-e- e+ e+ e-e- e+ e+ W W γ e- e- q q

Z mass To suppress backgrounds having W in final states – 83 GeV < mZ < 100GeV ZZ signal Z WW e W eeZ

Variables for Likelihood Ratio Zmass ■Signal cosθ Z < ■Background ZZ background e W background Z background WW background eeZ background Zmass cosθ qq cosθ z cosθ qq

Likelihood Ratio signalbackgrounds

Recoil Mass 120 GeV < M recoil < 140 GeV signalbackground

Signal eff and BG Cross Section Cut /  [ab] Signal [%]ZZ Z WW e W eeZ No cut Isolated lepton Forward electron veto Z mass Cos(  Z ) LR Recoil mass Signal Efficiency is 42% and background cross section is 22fb after all selections.

Set the upper limits on  and BF

Toy MC Recoil mass distributions before cut is used for ToyMC. Recoil mass distributions with no signal are generated for each Likelihood ratio cut to minimize the upper limits. – Two backgrounds from ZH process are added to toy MC ZH  (qq)(ZZ*)  (qq)(4 ) : irreducible, the BF~0.1% ZH  ( )(ZZ*)  ( )(qq)( ) : can be suppressed by recoil mass Fit to Recoil mass distributions and extract Number of signals Repeat 1000 times and make Number of signals distribution. Set the 95% CL Limits on signal yield and cross section. N sig upper limit

PDF for Toy MC Generation Fit Parameters : N sig, N bg Fixed values : N h→4  N h→ZZ*→qq( ) assuming the SM BG:ZZ+ Z+WW+e W+eeZ

Results Set the upper limit with 250fb -1, –  (e+e-  ZH, H  invisible ) < 1.7 fb at 95% CL From the  (e+e-  ZH) = 240fb, upper limit on BF is obtained. – BF (H  invisible) < 0.70% at 95% CL with 250 fb -1 Note. This “invisible” does not include 4 neutrinos final state

Summary and Plan We have estimated the upper limits on the cross section and BF of invisible Higgs decays at the ILC at the E CM of 250 GeV, with an integrated luminosity of 250 fb -1 and polarization of P(e+,e-)=(-30%,+80%). –  (e+e-  ZH, H  invisible) < 1.7 fb at 95% CL – BF (H  invisible) < 0.70% at 95% CL with 250 fb -1 Study with a full simulator. Add leptonic Z decays. Combine studies at E CM = 350GeV and 500GeV.