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Collider Signatures of Warped Extra Dimension

Collider Signatures of Warped Extra Dimension. Amarjit Soni HET, BNL (soni@bnl.gov). Outline. Introuction & Motivation: WED basics Enhanced tcZ Prospects @ LHC e + e - ->t c: clean & unique signal @ the ILC FB asymmetry & enhanced RH couplings characteristic of WED

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Collider Signatures of Warped Extra Dimension

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  1. Collider Signatures of Warped Extra Dimension Amarjit Soni HET, BNL (soni@bnl.gov) DPF06, Honolulu A. Soni

  2. Outline • Introuction & Motivation: WED basics • Enhanced tcZ • Prospects @ LHC • e+ e- ->t c: clean & unique signal @ the ILC • FB asymmetry & enhanced RH couplings characteristic of WED • top quark edm • CP problem of WED • enhanced nedm • Summary & Outlook DPF06, Honolulu A. Soni

  3. Flavor structure of warped extra dimensional models(Agashe,Perez&Soni) • Systematic exploration of underlying framework, hepph/0408134->PRD’05 • B-factory signals for a WED,hepph/0406101->PRL’04 • Collider Signals of top quark flavor violations, hepph/0606293 DPF06, Honolulu A. Soni

  4. RS-WED: Brief introduction DPF06, Honolulu A. Soni

  5. Regarding HP • Due to warping there is exponential hierarchy between te cutof scales of the theory @ the 2 ends of the extra dim. • Thus ΛEWSB is protected due to a low cutoff near the TeV brane while the high scale of gravity is generated at the other end, the Planck brane DPF06, Honolulu A. Soni

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  13. For now appreciable uncertainties accompany WED predictions DPF06, Honolulu A. Soni

  14. t -> c Z Effective Lagrangian from WED DPF06, Honolulu A. Soni

  15. Experimental signals @ the LHC At the LHC expect 108 top pairs so should be accessible. Specifically with 100 fb-1 ,upper limit on BR(t->cZ)~10-5 is feasible (ATLAS) With enough statistics angular analysis would also be very informative. WED predicts predominantly RH couplings. DPF06, Honolulu A. Soni

  16. t -> c γ,G At the LHC expected sensitivity for these is BR(t->c γ,G) ~ 10-5 , -4 so not promising DPF06, Honolulu A. Soni

  17. Comparison with the SM • In SM & in 2HDM BR (t -> c V) with V= γ , G, Z computed long ago (Eilam, Hewett, A.S, PRD’91) In the SM 1-loop graph is extremely GIM suppressed as {(mb , ms , md )2 / mt2 ) ->0 } DPF06, Honolulu A. Soni

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  19. Implications of WED for the ILC • e+ e- -> t c : A unique, clean & spectacular signal for WED is possible. The importance of this reaction for searching fcnc was 1st stressed in Atwood, Reina & A.S, PRD’96. Extensively studied since then, See e.g. Bar-Shalom & Wudka, PRD’99 (eff. Lag); J.A.Aguilar-Saavedra,PLB’01 (Exptal aspects TESLA vs LHC); Han & Hewett, PRD’99 (eff. Lag) Cao,Xiong & Yang, NPB’03 (SUSY) Yue,Wang,Di & Yang,PLB’05 (littlest Higgs); Arhrib & Hou, JHEP’06 (4th family)……. DPF06, Honolulu A. Soni

  20. e+ e- -> t c @ the ILC Rtc is around 2X10-5 for Ecm~200GeV and increases to ~ 2X10-4 at higher energies DPF06, Honolulu A. Soni

  21. Forward-Backward Asymmetry ine+ e- -> t c, a key prediction of WED For unpolarized beams: AFB is ~7% @ low energies and increases with energy to ~11%; higher with pol. beams. A distinctive feature of WED is that it predicts AFB positive due to dominance of RH coupling. DPF06, Honolulu A. Soni

  22. e+ e- -> t c: Some notable features • fcnc searches with b s (or in general q q’ , light flavors)…At ILC these are extremely difficult to detect due to the overwhelming background from b b (q q) X (mis) tagging efficiency…. • CONTRAST this with tc….Here fcnc reaction can be studied simply extremely efficiently by staying at cm energies of about 200-335GeV. Then t t is NOT possible. • Thus physics of crucial importance is possible with a LOW ENERGY OPTION for the ILC • At such energies, due to its huge mass, Et is significantly more than Ecm/2 …. • The opposite side is an effectively massless “charm” jet carrying energy appreciably less than Ecm/2 • AND IT MUST NOT CONTAIN A b-jet. So lots of handles. • Recall also top decays are very efficient analyzers of its polarization.. which can be a very helpful diagnostic of the underlying dynamix. DPF06, Honolulu A. Soni

  23. More on e+ e- -> t c @ the ILC DPF06, Honolulu A. Soni

  24. Prospects for CP violation • In general, in RS1 scenarios, the mixing coeffs. e.g. (UR)23 are complex ; therefore should expect new CP-odd phase(s) • For exploring these, the beam polarization at ILC should prove very useful • Recall expect e- (80%) and e+ (60%) polarization • Top decay to b W and charm jet so FS has several momenta allowing construction of TN odd observables which can be used for extracting info on new CP-odd phase(s) associated with WED DPF06, Honolulu A. Soni

  25. Possibilty of top-quark edm with WED • In RS direct KK-exchanges can endow CP-odd phase(s) to flavor-daigonal processes. • This can lead to top-quark edm: At the ILC with the parameters mentioned, using e+ e - -> t (b W+) t(b W-) edm form-factors >~ 10-20 e-cm seem accessible. {See Atwood, Bar-Shalom,Eilam,+AS, PR’01} DPF06, Honolulu A. Soni

  26. ‘CP-Problem’ in WED scenarios In WED (as in many other BSM scenarios), nedm is expected to be close to current exptal bounds (~10-26 e-cm) & >> SM (<10-30 e-cm) Moral: While we definitely should move enthusiastically towards an ILC, it would be short-sighted to short-change nedm expts. DPF06, Honolulu A. Soni

  27. Summary & Outlook • RS-WED scenarios offer a fascinating resolution to the Planck-weak hierarchy and also amielorate the flavor puzzle of the SM • Generically tcz coupling esp. RH ones are significantly enhanced • Br(t->cZ) ~ 10-5 enormously enhanced over the SM…LHC with its O(108) top pairs should be able to study this including the top polarization which has specific RH dominance prediction in WED • At the ILC, WED leads to the possibility of a spectacular signature via significantly enhanced e+ e--> t c • Also predicts FB asymmery >7% as necessitated by the dominance of RH couplings in WED • Especially gratifying that this crucially important FC physics with its clean signature is accessible with the low energy option of the ILC. • WED can endow t-quark with very large electric dipole moment of O(10-19 ) e-cm, which may be measurable at the ILC • RS-WED has a CP ‘problem’ in that nedm may be significantly enhanced and close to current exptal bounds • It is extremely important that we vigorously hunt for signals of WED at the high energy frontiers of LHC & ILC and also in the low energy experiments in search for nedm. DPF06, Honolulu A. Soni

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