Lepton Flavor Violating  decays at B-factories: results and prospects

1. Lepton Flavor Violating  decays at B-factories: results and prospects Giovanni Marchiori Università di Pisa & I.N.F.N.

2. Introduction • LFV in charged lepton sector in SM (via  mixing) strongly suppressed (GIM)  Observation of LFV is a clear signal of NP • Most SM extensions predict enhanced LFV effects in  decays (BR’s up to 10-610-7) • Results reported in this talk: LFV as discriminating tool •  l+g • t  l+l’l’ t  l+hh’ (h = ,K) t l+h0 (h0 = p0,h,h’,KS) t  l+V0 (V0 = r,K*,f) (l=e,m ) G. Marchiori - LFV tau decays at B-factories: results and prospects

3. Theoretical expectations for  LFV decays Also promising:    (enhanced in Higgs-mediated models) G. Marchiori - LFV tau decays at B-factories: results and prospects

4. B-factories (e+e-,s10.58 GeV=M(4S)) 400fb-1 • A B-factory is also a t-factory! s(tt)~0.9nb, s(bb)~1.1nb ~5.6x108t-pairs at Belle, ~3.5x108t-pairs at BaBar  BR ~ O(10-8) sensitivity! ~ 109t-pairs expected at each B-factory by 2008 • Detectors BABAR: - 90% tracking and e.m. calorimeter acceptance; 80% PID acceptance - e-ID: eff ~91%,  misid ~0.2%; -ID: eff ~63%,  misid ~4.8% G. Marchiori - LFV tau decays at B-factories: results and prospects

5. Signal signature (example for   ) 1/3 prong(s) + missing (tag side) m+g (signal side) m signal event g t e • e+e-t+t- Event topology: thrust, number of charged tracks and neutral clusters in two (CM) hemispheres consistent with decay under study Signal side: positive lepton-ID, Tag side: pmiss within detector acceptance, pTmiss>0, Mmiss~0 e t generic t decay signal MC 3s ellipse: blinded region G. Marchiori - LFV tau decays at B-factories: results and prospects

6. Background suppression signal data • Radiative Bhabhas and dimuon events: mostly leptons, high-momentum (and small pT) tracks, jet-like • Low-multiplicity hadronic events: more isotropic, more neutrals, Kaons • Two-photon events: large Emiss, small pT • SM  decays: missing mass and momentum in both hemispheres G. Marchiori - LFV tau decays at B-factories: results and prospects

7. Analysis strategy • Signalextraction:M-E plane (2s ellipse/box around (m,0) ) • Background (B) extrapolated from M-E sidebands • Signal (S) efficiency  from full MC simulation • Selection optimized for best BR upper limit when S=0 • Blind analysis • Frequentist BR upper limits obtained from B, S, , N with systematic uncertainties included (NIM A320,331) • B/B up to 100% (limited sidebands statistics) • / <~ 8% (tracks and photons reconstruction efficiency; momentum scale and resolution; PID efficiency) • (N)/N ~2.3% (luminosity and ) G. Marchiori - LFV tau decays at B-factories: results and prospects

8.    signal data • Main BGs: • tt+ISR g (tgmnn) • mm+ISR g • Belle(535fb-1, preliminary) • BaBar(232fb-1, PRL 95, 041802) signal region blinded region distribution in 2s band • Beam-energy constrained mass • =7.4±0.5% (3-prong tag: 1.2%) • Nexpected= 6.2±0.5 • Nobserved= 4 • BR<6.8x10-8 at 90% CL • = 6.7% (only 1-prong tag) • Nexpected= 13.9 • Nobserved= 10 • BR<4.5x10-8 at 90% CL G. Marchiori - LFV tau decays at B-factories: results and prospects

9.   e • Main BGs: • tt+ISR g (tgenn) • ee+ISR g Belle(535fb-1, preliminary) BaBar(232fb-1 , PRL 96, 041801) • Beam-energy constrained mass •  = 4.7±0.3% • Nexpected= 1.9 ± 0.4 • Nobserved= 1 • BR<1.1x10-7 at 90% CL •  = 3.0% • Nexpected= ? • Nobserved= 5 • BR<1.2x10-7 at 90% CL G. Marchiori - LFV tau decays at B-factories: results and prospects

10.  ll’l’ (l,l’=e,) signal box data Main BGs: higher order radiative e+e-, +-: e+e-lll’l’ BaBar(91.5fb-1 , PRL 92, 121801) • only 1-prong tag decays •  =7-11% • Nexpected= 3.41±0.22 in total • Nobserved= 3 • BR<(1.1-3.3)x10-7 at 90% CL • ~similar results from Belle (87.1fb-1, PLB 589, 103) G. Marchiori - LFV tau decays at B-factories: results and prospects

11.    signal data BaBar(315fb-1, hep-ex/0607045) Belle(401fb-1, preliminary) hgg 2s box 70% ellipse (MC) data 90% ellipse (MC) hggg •  : 7.0±0.5 % • Nexp: 0.64±0.08 • Nobs: 1 hgp+p-p0 •  : 3.7±0.3 % • Nexp: 0.07±0.02 • Nobs: 0 hggg •  : 6.4% • Nexpected: 0.40 • Nobserved: 0 hgp+p-p0 •  : 6.8% • Nexpected: 0.24 • Nobserved: 0 BR<1.6x10-7 BR<6.5x10-8 G. Marchiori - LFV tau decays at B-factories: results and prospects

12.  h0 / eh0(h0=p0,h,h’) signal data Belle(401fb-1, preliminary) • Based on previous analysis (154fb-1, PLB622, 218) • tgeh’ / mh’ : h’grg mode is now included. • eff.: 4.3%(tgeh’ ,h’ghp+p-), 4.8%(tgeh’ ,h’grg) 4.9%(tgmh’ ,h’ghp+p-), 5.4%(tgmh’ ,h’grg) • Main BGs: • tgmp0 : tgrn • others: negligibly small BGs BR(eh)<9.2x10-8 BR(eh’)<1.6x10-7 BR(mh’)<1.3x10-7 BR(ep0)<8.0x10-8 BR(mp0)<1.2x10-7 3-6 times more sensitive results obtained G. Marchiori - LFV tau decays at B-factories: results and prospects

13.  lhh’ (l=e,; h,h’=,K) Main BGs: low-multiplicity qq evts hh’h” signal data BaBar(221fb-1 , PRL 95, 191801) • only 1-prong tag decays •  ~3% for each mode • Nexpected= 11.30.7 in total (0.1-3.0 depending on channel) • Nobserved= 10 • BR<(0.7-4.8)x10-7 at 90% CL • ~similar results from Belle (158fb-1, hep-ex/0603036) G. Marchiori - LFV tau decays at B-factories: results and prospects

14.  KS / eKS (KS +-) signal data Belle(281fb-1, PLB639, 159) signal region tmKs teKs previous result CLEO:14fb-1 mKs:<9.5x10-7 eKs:<9.1x10-7 blind region  : (13.5±0.9)% Nexpected=0.20.2 Nobserved=0 BR<4.9*10-8  : (11.8±0.8)% Nexpected=0.20.2 Nobserved=0 BR<5.6*10-8 20 times improvement wrt previous UL (CLEO) • Main BGs: Dg lKSn, pKS - but negligible • Main syst. on : KS reco. (4.5%), tracking eff. (4%) G. Marchiori - LFV tau decays at B-factories: results and prospects

15.  V0 / eV0 (V0=f,K*,r) lepton h V0 h t e e t generic t decay signal box Main BGs: tt+qq (tgmV0) tt+2photon (tgeV0) data K+K- K*K+- +- Belle(158fb-1, hep-ex/0603036) ter0 t eK* t mr0 t mK* t mK* t mf t ef teK* •  ~3-5% • Nexpected= 2.55±1.04 in er0; negligible for non- modes (V0 mass cut) • Nobserved= 5 in er0; 0 in all other channels • BR<(2.0-7.7)x10-7 at 90% CL G. Marchiori - LFV tau decays at B-factories: results and prospects

16. Summary of  LFV searches red: results shown in this talk * : bkg currently negligible * * * * * * * * * * * Starting to constrain the parameter space of some NP (SUSY/Higgs/mSUGRA) models G. Marchiori - LFV tau decays at B-factories: results and prospects

17. Prospects For many modes at present the expected background is negligible. • probably the case also at the end of the B-factories era (2ab-1 in total)  UL  1/L (5-10 improvement)  UL ~10-8 • may not be the case at a Super flavor factory (50 ab-1)  UL improvement ~1/L (another x5 improvement AT LEAST) • detailed studies (simulations) to be done • detector design to be optimized: improve  and bkg suppression: • Increased hermiticity • Better particle-ID performance • Improved tracking/neutral resolution • Sensitivity to BR ~10-9-10-10 could be reached • Potential for LFV observation in t decays G. Marchiori - LFV tau decays at B-factories: results and prospects

18. Conclusion • Data sample of B-factories (-factories): >900*106t pairs now ~2*109 by 2008 • Studies of  LFV decays now reach the O(10-8) level: • No signals are found in any of the LFV decay modes • Many ULs for  LFV updated by B-factories’ results • A Super flavor factory (50x more data, more optimized detector) can set O(10-9-10-10) limits and has potential for LFV discovery in many NP scenarios G. Marchiori - LFV tau decays at B-factories: results and prospects

19. Backup G. Marchiori - LFV tau decays at B-factories: results and prospects

20. Extracting BR upper limits (NIM A320, 331) • Cousins-Highland method: extension to frequentist method to include syst. uncertainties. • MC samples generated according to Poisson distribution with mean (S+B) • B drawn randomly from Gaussian distribution with mean = Nexpected , std. dev. = (Nexpected) • S drawn randomly from Gaussian distribution with mean = L**2*BR* , std. dev. = (L**2*BR*) • BR varied until 10% of the sample yields a # of events < then the # observed in data G. Marchiori - LFV tau decays at B-factories: results and prospects

21. The BaBar detector • “Multi-purpose” detector with full azimuthal and ~90% polar angle coverage • Optimized for CP violation studies in B decays (energies in the range 100 MeV – 4 GeV) • Vertex resolution • Material budget (momentum resolution, low-energy photon efficiency) • Lepton/Kaon identification (B flavor tagging) EMC Nested subdetectors: Vertex detector(SVT) (5 Si layers) Drift chamber (DCH) (gas based, 40 cell layers) Cherenkov detector (DIRC) (fused silica bars) Electromagnetic calorimeter (EMC)(CsI(Tl) crystals) Superconducting Magnet (1.5 T solenoidal field) Muon and neutral hadron calorimeter (IFR)(Iron + RPC/LST) B decay vertex, soft p from D* Solenoid DIRC K-ID e+ K-ID e-ID e- DCH IFR m-ID SVT G. Marchiori - LFV tau decays at B-factories: results and prospects

22. performances SVT: 90% acceptance in CM, 4% X0 thickness (vtx): 70 m fully reco, 150 m tag (d0), (z0) ~ 50 m Low-pT trk. eff. : >80% at pT=70 MeV/c DCH: 90% acceptance in CM, 1.08% X0 thickness Trk. eff.: 98% for pT>200 MeV/c (pT)/pT=0.13%pT/(GeV/c) + 0.45% 3 K/ separation (dE/dx) up to 700 MeV/c DIRC: 78% acceptance in CM, 17% X0 thickness (C)2.5 mrad, (t)~1.7 ns K/ separation: 4.2 @ 3GeV/c, 2.5 @ 4GeV/c • EMC: • 90% acceptance in CM, 17 X0 thickness • (E)/E: 2.3%/(E/GeV)^(1/4)  1.85% • (,) = 3.9 mrad/(E/GeV)^(1/2) • (0 mass)=6.9 MeV/c2 • e-ID: eff=91%,  misid=0.2% • IFR • 65 cm of steel (+brass) • 18 plates of RPCs (being replaced by LSTs) • -ID: eff=63%,  misid=4.8% (eff. > 90% with LSTs) G. Marchiori - LFV tau decays at B-factories: results and prospects

23. Typical selection variables charged tracks: d0, z0 momentum, # of hits photons: Energy Lateral shower shape Not matched to tracks K/: dE/dx Cherenkov angle Unstable particles: invariant mass of daughters 2 probability of vertex fit : mEC, E KS: Distance of flight Line of flight vs p direction , K*, , D*0: helicity angle (polarization) G. Marchiori - LFV tau decays at B-factories: results and prospects