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Taikan Suehara et al., Chicago, 17 Nov. 2008 page 1 Tau-pair performance in ILD detectors Taikan Suehara (ICEPP, The Univ. of Tokyo) with K. Fujii(KEK),

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Presentation on theme: "Taikan Suehara et al., Chicago, 17 Nov. 2008 page 1 Tau-pair performance in ILD detectors Taikan Suehara (ICEPP, The Univ. of Tokyo) with K. Fujii(KEK),"— Presentation transcript:

1 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 1 Tau-pair performance in ILD detectors Taikan Suehara (ICEPP, The Univ. of Tokyo) with K. Fujii(KEK), A. Miyamoto(KEK), N. Okada(KEK) & all ILD optimization, ILC-Asia physics group

2 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 2 Motivation for tau-pair study –For LOI –For ILD detector optimization –For Z’ search Analysis on SM background suppression Analysis on polarizationMenu

3 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 3 For LOI: –ILC detector concepts should make a Letter-Of-Intent (LOI) by March 2009. –The LOI should contain analyses of specified benchmark physics processes based on full MC to show performance of the detector concept. –Tau-pair is one of the benchmark process, and it is a good analysis sample for reconstruction of  0 to 2 . For detector optimization: –Using results of the analyses of different detector models can illuminate difference of the performance. For physics: –Precise measurement of tau-pair cross section and angular distribution can detect a Z’ boson whose mass is up to several TeV. Motivation of this study

4 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 4 LOI: Benchmark process list Processes (e + e -  ) √S (GeV) ObservablesComments ZH, ZH  e + e - X,250 , m H m H =120GeV, test materials and  ID      X250 , m H m H =120GeV, test  P/P ZH, H  cc, Z  250Br(H  cc)Test heavy flavour tagging and anti- tagging of light quarks and gluon, Z  qq250Br(H  qq)Same as above in multi-jet env. Z*      500  A FB, Pol(  Test  0 reconstruction and  rec. aspects of PFA tt, t  bW, W  qq’500  A FB, m top Test b-tagging and PFA in multi-jet events. m top =175GeV           500  m  Point 5 of Table 1 of BP report. W/Z separation by PFA

5 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 5 Themes –Tracking and calorimetry of concentrated particles Gamma factor is around 140 for 250 GeV  s –  0 to 2  decay reconstruction 2  s are very closed, difficult to separate Observables –Cross section, A FB, P(  ) –Event selection and  0 reconstruction performance (efficiency and purity) LOI: Charge of tau-pair analysis Description of LOI benchmark, from ILC-MEMO-2008-001

6 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 6 We generate event samples for detectors with different size and B field. (signal only for Jupiter geometries) Compare difference of performance. Opt: Comparing detector models GeometryGLDGLD’J4LDCLDC’ SoftwareJupiter Mokka Magnetic field3 Tesla3.5 Tesla4 Tesla3.5 Tesla TPC Rmin43.7 cm43.5 cm34 cm37.1 cm ECAL Rmin210 cm185 cm160 cm182.5 cm ECAL thickness19.8 cm 17.2 cm HCAL thickness120 cm109 cm96 cm127.2 cm ECAL granularity1x1 cm 0.5x0.5 cm

7 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 7 Additional Z’ boson can make tau-pair production cross section and angular distribution deviated from SM. If the coupling to Z’ (-> Z’ decay branching ratio) is flavor dependent, measuring tau-pair production can be the main process to measure Z’ properties. Phys: Flavor dependent Z’ model Branching ratio of Z’ with a model parameter  Deviation of angular dependence by Z’

8 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 8 1% precision for cross section and A FB can detect ~5 TeV Z’ Required precision for  and A FB

9 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 9 Signal cross sections: 2.6 pb (e L ), 2.0 pb (e R ) Simulated events: –~80 fb -1 in GLD, GLD’ and J4LDC with Jupiter –~80 fb -1 in LDC’ with Mokka –Reconstructed by MarlinReco/PandoraPFA (ilcsoft v01-04) Backgrounds: –Bhabha (35000 pb) Good e  separation is essential –  ->  (1500 pb) Cut by angular & energy information –WW -> l l (~1 pb) Cut by opening angle Event samples (sig. & bg.)

10 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 10 For LOI, background study should be done by a MC sample of full processes of specific (least) integrated luminosity. –2f: 50fb -1, 4f: 20fb -1, Bhabha: 0.1 fb -1  : 1fb -1 etc. MC sample of LDC’ detector model has been generated. –LDC’ is slightly different from ILD reference model. –Generation for ILD reference model is in preparation. BG suppression by full SM sample Number of events produced in LDC’ (from Frank’s slide)

11 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 11 1.Number of track <= 6 –Veto hadronic events 2.Specialized jet clustering (TaJet) –Customized to taus (several particles within narrow angle) –1 positive & 1 negative jets required for further analyses 3.Opening angle > 178deg –Suppress WW to l l  background 4.40 < E vis < 450 GeV –  ->  and Bhabha rejection 5.2-electron and 2-muon veto –For bhabha and ee->  veto –E-ID by Ecal/total deposit,  -ID by hit/track energy 6.|cos  | < 0.9 for both jets –Bhabha is completely suppressed by this cut BG suppression cuts

12 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 12 Result of SM suppression cut Preliminary: luminosity not normalized,  not contained. AllTau #tr cut only 11085 78 69489 Angle cut 13949 9 19504 Evis cut 2658918996 ee,  cut 1940317378 cos  cut 1528414808 Remaining bhabha is 0 in 0.1 fb -1 -> Bhabha background is < 10% of signal (Need more events for precise estimation)

13 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 13 # of bg events is much smaller than signal events –If we precisely estimate bg amount, statistical error of signal only concerns to  and A FB measurements Effective cross section after cut is 490 fb (21.3% acceptance) –Corresponds to 0.2 % error in  and 0.28% error in A FB at 500 fb -1 Forward-backward asymmetry SM calculation (Red: left, Blue: right)

14 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 14 Decay modes in A pol analysis Branching ratio: 17.8% 3 body decay; pol. info is smeared  -> e Branching ratio: 17.4% 3 body decay; same as e mode  ->  Branching ratio: 10.9% Pol. can be directly observed by  distribution  ->  Branching ratio: 25.2% Pol. of  can also be obtained by  distribution in  -rest frame (pol. of  is connected to pol. of  )  ->  ->  Branching ratio: 9.3% Currently not used because statistics is low  -> a1  a1  -> 

15 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 15 A pol analysis highlights: Mode selection Invariant masses of  and  0 A pol calculation by angular distribution of  s Analysis flow PFO particles Jets No Yes

16 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 16 1.1 prong cut Jets with >2 charged particle rejected. 2.Lepton veto Events containing e/  s are rejected. (criteria is the same as A FB lepton-pair veto) 3.Energy cut Jets with energy < 10 GeV rejected. (e/  /  separation is inefficient in low energy) 4.Events with > 1 GeV neutral particles are rejected. In “tight cut” event with any neutrals are rejected.  ->  selection cuts

17 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 17 Selection performance between geometries (look at the 2 nd row from the bottom) Efficiency: not so different Purity: LDC’ > GLD > GLD’ > J4LDC –  ->  mode (decay 2  is mis-reconstructed as single) might be the reason (larger is better) –LDC’ has advantage due to high CAL granularity.  ->  selection results

18 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 18 A pol calculation (  mode) Stat error in 500fb -1 Value shift due to the mode BG Statistical error is almost the same for all geometries Value shifts are larger in GLD’/J4LDC due to the lower purity. Values obtained by signal-only events!

19 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 19 1.1 prong cut 2.Lepton veto 3.Energy cut (jet energy must be > 10 GeV) Above are same as  ->  cuts 4.Events with > 10 GeV from neutrals (in total) are selected. 5.Mass of  is reconstructed, must be within 200 MeV from actual mass (770 MeV). 6.Mass of p0 is reconstructed with neutral particles. If # of neutrals >=3, nearest (in angle) two are combined until 2 particles are left. Application of this cut is discussed later.  ->  selection cuts

20 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 20 Clear difference observed in invariant mass distributions. –LDC’s best, larger is better in Jupiter geometries. –Mark confirmed the granularity affects the mass distributions. Three candidates in  mode selection –No  0 mass cut,  0 cut with left edge included / excluded  and  0 reconstruction

21 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 21 3 rd row from bottom: used as “no  0 mass cut”. 2 nd row from bottom: used as “  0 mass cut”. –Events with single neutral are survived with this cut. Most bottom row: used as “tight  0 mass cut”. –Events with single neutral are eliminated with this cut. Clear difference by geometries: LDC’s the best, bigger is better in Jupiter’s.  ->  selection results

22 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 22 Clear difference between e L and e R observed. Distribution is degraded due to the cut effects.  -> ,  ->  distribution (1) no  0 cut P pol vs dist. calc

23 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 23 Number of signal is about a half. Difference between geometry enhanced. –J4LDC is not realistic with this cut? Background is quite low, negligible level.  -> ,  ->  distribution (2) tight  0 cut

24 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 24 Combined information of  ->  and  ->  decay can be used in this method. Obtaining P(  ) value Physics Letters B, 235 (1990) 198

25 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 25 A pol calculation (  mode) Stat error in 500fb -1 Value shift due to the mode BG Statistical errors are larger in GLD’/LDC, esp. with m  0 cut. Value shift is smaller than  mode, negligible with m  0 cut. Values obtained by signal-only events!

26 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 26Summary Tau-pair events are analyzed in ILD framework. SM background can be efficiently removed by appropriate cuts. –Bhabha statistics is short -> need pre-selection –No  events –Weighting of background is needed -> All will be performed in ILD reference detector for LOI A pol analysis is implemented, showing larger and highly granulated detectors give better performance. Up to 5 TeV Z’ boson can be measured by measuring anomaly to the tau-pair production.

27 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 27 Thank you for your attention.

28 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 28 Backup

29 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 29 SM background suppression cut and its study was fully developed after ECFA08 Polarization treatment of tau-generator was fixed, and obtained polarized distribution was analyzed. A criterion for tau->rhonu decay mode is developed. Updates from ECFA08

30 Taikan Suehara et al., LCWS08 @ Chicago, 17 Nov. 2008 page 30 Backgrounds are suppressed to negligible level. Signal efficiency is ~23%, quite low but… –Most cut events in first 2 cuts are with hard-photons –Practical signal efficiency is considered ~75% BG suppression cuts results

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