1 / 21

Search for tau-e (tau-mu) flavor mixing at a linear collider

Search for tau-e (tau-mu) flavor mixing at a linear collider. Shinya KANEMURA (Osaka Univ.) with. Yoshitaka KUNO, Toshihiko OTA (Osaka Univ) Masahiro Kuze (Tokyo Inst. Tech.). ACFA’07, Nov 11. 2004, at National Taiwan University. Introduction.

keiran
Download Presentation

Search for tau-e (tau-mu) flavor mixing at a linear collider

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Search for tau-e (tau-mu) flavor mixing at a linear collider Shinya KANEMURA (Osaka Univ.) with Yoshitaka KUNO, Toshihiko OTA(Osaka Univ) Masahiro Kuze (Tokyo Inst. Tech.) ACFA’07, Nov 11. 2004, at National Taiwan University

  2. Introduction • LFV is a clear signal for physics beyond the SM. e ⇔μμ⇔ττ⇔e • Neutrino oscillation may indicate LFV among charged leptons. • In SUSY models, LFV can naturally appear. Borzumati, Masiero Hisano et al.

  3. In this talk, we discuss tau-associated LFV in SUSY models τ⇔e & τ ⇔μ • The Higgs mediated LFV is proportional to the Yukawa coupling ⇒ Tau-associated LFV processes. • It is less constraind by current data as compared to theμ⇔e mixing μ→eγ 1.2 ×10^(-11)        μ→3e1.1×10^(-12) μTi→eTi6.1 ×10^(-13) τ→μγ 3.1 ×10^(-7) τ→3μ 1.4-3.1 ×10^(-7) τ→μη3.4 ×10^(-7) 

  4. LFV in SUSY LFV is induced at one loop due to slepton mixing • Gauge mediation : • Higgs mediation : Higgs mediation does not decouple in the large MSUSY limit

  5. Babu, Kolda; Dedes,Ellis,Raidal; Kitano, Koike, Okada LFV Yukawa coupling Slepton mixing induces LFV in SUSY models. κij= Higgs LFV parameter

  6. Consider that MSUSY is as large as O(1) TeV with a fixed value of |μ|/MSUSY While gauge mediated LFVis suppressed, the Higgs-LFV coupling κijcan be sufficiently large . Babu,Kolda; Brignole, Rossi mSUSY ~ O(1) TeV

  7. Search for Higgs mediated τ- e & τ- μ mixing • Tau’s rare decays τ→eππ (μππ) τ→eη (μη) τ→μe e (μμμ)、 …. In nearfuture, τ decay searches will improve the upper limit by 1-2 orders of magnitude. • Other possibilities ? • Higgs decays into a tau-mu or tau-e pair • The DIS process e N (μN) →τX by a fixed target experiment at a LC (μC)

  8. Higgs boson decay After the Higgs boson is found, we can consider the possibility to measure the LFV Higgs couplings directly from the decay of the Higgs bosons. • LHCAssamagan et al; Brignole, Rossi • LC Kanemura, Ota, et al., PLB599(2004)83. Search for h →τμ (τe) atLC: • Simple kinematic structure (Esp. Higgssrahlung process) • Precise measurements: property (mh,Γ,σ,Br,…) will be thoroughly measured • Less backgrounds

  9. Higgs Production at a LC ~10^5 Higgs produced Decay branching ratio (h→τμ) The branching ratio of 10^(-4) – 10^(-3) is possible.

  10. Signal The process can be identified by using Z recoil: • Theτmomentum is reconstructed by using Ecm, mh, pZand pμ It is not required to measure τ • The # of the signalevent 11 event for leptonic decay of Z 118 event for hadronic decay

  11. Backgrounds

  12. Feasibility • Resolution of Z momentum • Signal / Fake 118 / 230 events (Z →jj、 δ=3GeV) 11 / 8 events (Z→ll, δ=1GeV) For some specific parameter region, h →τμ (τe) can be studied at a LC. No big advantage, although it depends on machine.

  13. Alternative process for search of the Higgs LFV coupling? • At future ν factories (μ colliders) , 10^20 muons of energy 50 GeV (100-500GeV) can be available. DIS μN→τXprocess Sher, Turan, PRD69(2004)302 Kanemura, et al, hep-ph/0410044 • At a LC (Ecm=500GeV L=10^34/cm^2/s) 10^22 of 250GeV electrons available. • We here consider the LFV DIS processes eN→τX by using the electron (positron) beam of a LC A fixed target experiment option of LC

  14. Cross section in SUSY model • Each sub-process e q (μq) →τq is proportional to the d-type quark masses. • For the energy > 60 GeV, the total cross section is enhanced due to the b-quark sub-process Eμ=50 GeV 10^(-5)fb 100 GeV10^(-4)fb 250 GeV10^(-3)fb CTEQ6L

  15. Energy distribution for each angle • From thelL beam, τR is emitted to the backward direction due to (1 ー cosθCM)nature in the CM frame. • In Lab-frame, tau is emitted forward direction but with large angle with a PT. 2 E=100 GeV E=500 GeV

  16. Signal • Number of taus (case of electron beam) E=250 GeV, L =10^34 /cm^2/s, ⇒10^22 electrons (positrons) in a SUSY model with |κ3i |^2=0.3×10^(-6): σ=10^(-3) fb 10^5 of τleptons are producedfor the target of ρ=10 g/cm^2 Naively, non-obervation of the e N → τ X process may improve the current upper limit on the e-τ-Φcoupling by around 4-5 orders of magnitude • We may consider its hadronic products as the signal τ→(π、ρ, a1, …)+ missings # of hadrons ≒ 0.3×(# of tau) Hard hadrons emitted into the same direction as the parent τ’s Bullock, Hagiwara, Martin

  17. Backgrounds • Hadrons from the target (N) should be softer, and more unimportant for higher energies of the initial e or μ beam. • Hard leptons from l N→ lX would be be a fake signal via mis-ID of l as π. (l= e or μ) • Rate of mis-ID • Emitted to forwad direction without large PT due to the Rutherford scattering 1/sin^4(θcM/2) ⇒PT cuts • Other factors to reduce the fake • Realistic Monte Carlo simulation is necessary.

  18. Summary • Possibility of measuring LFV via e N→τX by using the high energy electron beam of a LC with a fixed-target. • Ecm=500GeV ⇒ σ=10^(-3) fb L=10^34/cm^2/s ⇒ 10^22 electrons available 10^5 of taus are produced for ρ=10 g/cm^2 • Non-observation of the signal would improve the current limit on the τ-e-Φ coupling by 10^(4-5). • The signal would be hard hadrons from τ→πν、ρν, a1ν, .... , which go along the τdirection. • Main background: mis-ID of e from eN→eX. • Background simulation will be done.

More Related