Taikan Suehara, ILD Krakow, 25 Sep. 2013 page 1.

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Taikan Suehara, ILD Krakow, 25 Sep page 1

Taikan Suehara, ILD Krakow, 25 Sep page 2 Baryo- genesis? Higgs is a key to TeV worldHiggs is a key to TeV world Fermion mass generation by Yukawa coupling Electroweak symmetry breaking “The last fundamental piece unproved in Standard Model” Vacuum condensation & hhh coupling GeV world where SM is dominant TeV world where SM is just a perturbation Dark Matter? BSM (SUSY?) Higgs issues Naturalness Composite Higgs? Multiple Higgs?

Taikan Suehara, ILD Krakow, 25 Sep page 3 Higgs and BSM theories ~1 % measurement of coupling desired Typical samples: real deviation of course varied by model parameters

Taikan Suehara, ILD Krakow, 25 Sep page 4 Higgs physics program: revisited targetprocessCME  (stat)detector challenge  ZH llh2502.6%track momentum, beam spectrum % qqh250yetW/Z separation, b-tag, jet charge % BRh->bb2501.0%b-tag h->cc2506.9%c-tag Widthh->ZZ*25019%W/Z separation, b-tag, jet charge raretth50035%b-tag, jet energy, jet charge 10008% Zhh / hh 50088% %

Taikan Suehara, ILD Krakow, 25 Sep page 5 global fit Snowmass energy frontier reportModel independent limited by  250 GeV

Taikan Suehara, ILD Krakow, 25 Sep page 6 ll recoil (preliminary) e e h Z l l Z* Recoil mass - do not see ‘h’ to measure ‘h’ procN (no cut)N (cut)  h2,5741,565  150,0002,401  ff160,0001,734  lnn600, others(mainly  350  h 250 CME/meas  heehcombined 250 / mass37 MeV /  ZH 3.6%5.2%3.0% 500 /  ZH 6.5%7.1%4.8% S. Watanuki, TS eeh 250  h 250

Taikan Suehara, ILD Krakow, 25 Sep page 7 Major performance driver –Background: mainly irreducible (2l + X) –Peak width: beam energy spread Detector-related performance drivers –Momentum resolution – keep current? –ISR tagging – not studied yet –Lower material – brems in eeh - but effect is minor? ll recoil machine detector LoI w/brems recovery wo/brems recovery

Taikan Suehara, ILD Krakow, 25 Sep page 8 Dedicated to absolute cross section meas. –hope to improve  ZH greatly > 10 x statistics compared to llh Less model independent – efficiency affected more on Higgs final state –Smaller effects also exist in llh – to be checked 250 GeV yet to be done, 350/500 done (preliminary) qq recoil Red: all background Black: qqh + background 3.9% (500 GeV) currently not so powerful as llh, but another 3.9% is anyhow important for combination A. Miyamoto

Taikan Suehara, ILD Krakow, 25 Sep page 9 Strategy –Fixed y (Durham) or R (k T ) clustering –Select combination using Z mass b-tag / c-tag / jet charge may be usable –Apply several cuts to Z/recoil to separate WW/ZZ –Calculate recoil Detector requirement –Jet energy resolution (W/Z separation, recoil) –flavor tagging / jet charge (minor) qq recoil

Taikan Suehara, ILD Krakow, 25 Sep page 10 main processes to determine Yukawa coupling of Higgs –h  bb: great accuracy expected (<< 1%) maybe limited by b-mass accuracy systematic errors should be carefully investigated –h  cc: not possible at all in LHC –h  gg: not possible directly in LHC But cannot separate from u/d/s quarks in ILC Performance depends almost exclusively on flavor tagging – good benchmark h  bb, cc, gg

Taikan Suehara, ILD Krakow, 25 Sep page 11 flavor tagging vs pixel size ctagbtag PRELIMINARY T. Mori, TS b-bkg uds-bkg c-bkg uds-bkg nominal fine coarse FPCCD Actually complicated – depends on vertex finding efficiency, b-c separation efficiency with optimization of algorithm Some difference in c-tag, less apparent in b-tag

Taikan Suehara, ILD Krakow, 25 Sep page 12 Zhh, tth Decay modeBR.# events in 2 ab -1 qqbbbb32%146 bbbb9%42 qqbbWW*->qqbbqqqq6%28 tt -> bbqqqq~800,000 ZZZ, ZZH -> qqbbbb~600 Zhh 500 GeV, m h =120 GeV huge background of tt many jets in final states  very high purity b-tag is essential  jet clustering

Higgs coupling determination 13 Absolute determination of couplings require knowledge of the total width: An easy example: ~20% precision at 250 GeV A more sophisticated example: [Junping Tian] ~6% precision combining 250 GeV GeV , IPMU School "Physics at the ILC" (T. Tanabe) Performance driver: 250 GeV: ZH  ZZZ* 500 GeV: H  WW*

Taikan Suehara, ILD Krakow, 25 Sep page 14 Total width: h  ZZ*/WW* various decay modes: 6q 4q2n 4q2l 2q2l2n 4l(2q,2n) separation from ZWW  need W/Z separation in jet  jet energy resolution H  250 GeV Energy HH 25020% (just an extrapolation) 5006% H  500 GeV not done yet?J. Tian analysis needs a lot of work 2.6% 21.5%

Taikan Suehara, ILD Krakow, 25 Sep page 15 Angular property of Higgs in search of BSM –H  WW* anomalous coupling (Takubo et al.) Will improve using c-jet charge –H   with Higgs CP-mixing (Yokoyama et al.) Require  decay measurements Misc analyses

Taikan Suehara, ILD Krakow, 25 Sep page 16 MeasureDetector challenge (nominal lumi) Improve needs / possibility Critical other than detector masstracking37 250* / **beam  ZH 250**** / ***qqh analysis 250** / **b mass 250*** / ***c-tag algo h->  vertex(d 0 /z 0 250*** / ** 250** / ** 250)*** / ***analysis h->  250* / ** h->  1000** / * 1000*** / **jet clustering 1000**** / **jet clustering Physics summary coupling

Taikan Suehara, ILD Krakow, 25 Sep page 17 Vertex finder –b-tag (tth, hhh) –c-tag (h->cc) Tracking –no critical Calorimeter/PFA –W/Z separation (qqh, h->ZZ*) esp. ~ 50 GeV Analysis needed! Better energy resolution? –resolution in general (tth, hhh) GeV Jet clustering more important Detector requirements summary Frac /E/EIdentical case (100 GeV) Photon~ 30%15%15% /  30 x 30 = 0.82 Neut. H~ 10%60%60% /  10 x 10 = 1.90 PFA30%0.82 (+) 1.90 = 2.07 GeV PFA still have some room?

Taikan Suehara, ILD Krakow, 25 Sep page 18 Analysis with benchmark detectors –Better performance better vertex resolution better energy resolution –Better in cost worse energy resolution (fewer segment / smaller radius) smaller magnetic field Software/analysis –Systematic errors with control samples –Better algorithms flavor tag, jet clustering, MVA analysis etc. Things to do intensive work by all analysis workers is highly needed!

Taikan Suehara, ILD Krakow, 25 Sep page 19

Taikan Suehara, ILD Krakow, 25 Sep page 20 Total width: h  ZZ*/WW* Γ H = Γ(H  XX) / BR(H  XX) Analysis with the same vertex of production and decay 250: e + e -  Z*  Zh  ZZZ* 500: e + e -  W*W*  h  WW* Partial cross section / total cross section Use recoil at 250 performance drivers h  ZZ* analysis: 6q 4q2n 4q2l 2q2l2n 4l(2q,2n) separation from ZWW  need W/Z separation in jet  jet energy resolution not analyzed yet! Energy HH 25020% (not confirmed!) 5006%