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Result of T-violating Muon Polarization Measurement in the K + → p 0 m + n Decay

Result of T-violating Muon Polarization Measurement in the K + → p 0 m + n Decay. C. Rangacharyulu Saskatoon, SK for the KEK-E246 collaboration June 7, ‘04 DAPHNE-04. Transverse muon polarization E246 experiment Analysis Result of the total data. E246 collaboration.

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Result of T-violating Muon Polarization Measurement in the K + → p 0 m + n Decay

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  1. Result of T-violating Muon Polarization Measurement in the K+→p0m+n Decay C. Rangacharyulu Saskatoon, SK for the KEK-E246 collaboration June 7, ‘04 DAPHNE-04 • Transverse muon polarization • E246 experiment • Analysis • Result of the total data

  2. E246 collaboration Japan● KEK ● Univ. of Tsukuba, ●Tokyo Institute of Technology ●Univ. of Tokyo ● Osaka Univ. Russia ●Institute for Nuclear Research Canada●TRIUMF ●Univ. of British Columbia ● Univ. of Saskatchewan ● Univ. of Montreal Korea● Yonsei Univ. ● Korea Univ. U.S.A.● Virginia Polytech Institute ● Princeton Univ. Taiwan ● National Taiwan Univ.

  3. Transverse Muon Polarization inK+→p0m+n Km3decay form factors and T violation History ofKm3 transverse polarization experiments • KL→p−m+n Bevatron 1967 Imx = -0.02 ±0.08 • KL→p−m+n Argonne 1973 Imx = -0.085 ±0.064 • KL→p−m+n BNL-AGS 1980 Imx = 0.009 ±0.030 • K+→p0m+n BNL-AGS 1983 Imx = -0.016 ±0.025

  4. KEK E246 experiment Features • Stopped K+ experiment with a SC toroidal spectrometer • Measurement of all decay kinematics directions • Double ratio measurement with small systematic errors History • 1992-1995 : detector construction • 1996-2000 : data taking • 1999 : first result published with 1/4 of data Imx= -0.023 ± 0.007(stat) ± 0.003(syst) [M.Abe et al., Phys.Rev.Lett. 83(1999) 4253] • 2001-2003 : analysis • 2004 (this conference) : report of the final result Byproducts • K+→m+ng :PT = -0.0064 ± 0.0185(stat) ± 0.0010(syst) [V.Anisimovsky et al., Phys.Lett. B562 (2003) 166] • Ke3, Kp2g, Ke4, ...

  5. E246 experimental setup [J.Macdonald et al.; NIM A506 (2003) 60] End view Side view K+→p0m+n

  6. Muon polarimeter One-sector view Cross section y(cm)

  7. CsI(Tl) and kinematics CsI barrel fwd and bwdp0 /g PT directions fwd -p0 (g ) bwd -p0 (g ) Double ratio measurement

  8. Experimental data K+m3 event selection e+time spectra e+ time spectrum CsI(Tl) analysis : 2g Momentum analysis TOF analysis

  9. Two independent analyses • Two analyses by two teams with • their own analysis policy and • event selection methods Comparison of good Km3 event e.g. :1998 2g events1g events A2 1221 k 1264 k A1 918 k 909 k • Combination of the two analyses by resorting of events to 6 data sets 2g —— A1•A2A1•A2 A1•A2 1g —— A1•A2A1•A2A1•A2 Merits of two analysis method • Cross check of data quality by A0, decay plane rotation qrand qzandPT • Comparison of sensitivity by normal asymmetry ANand <cosqT> • Check of data quality in e.g. A1 by comparing A1•A2 and A1•A2-bar • Estimate of systematic error by comparing <cosqT> ofA1•A 2 fromA1 and A2 • Improvement of statistical error

  10. Data quality check Null asymmetry check Sensitivity check AN=(Aleft - Aright)/2 Aleft = [(Ncw/Nccw)left -1]/2 Aright= [(Ncw/Nccw )right -1]/2 A0=[(Ncw/Nccw)total -1]/2 total = fwd + bwd • 6 data sets for each period • Open circles are 2g events and dots are 1g events. • Null asymmetry is canceled by double ratio (fwd-bwd).

  11. Result PT = - 0.0017 ± 0.0023(stat) ± 0.0011(syst) ( |PT | < 0.0050 : 90% C.L. ) Imx = - 0.0053± 0.0071(stat) ± 0.0036(syst) ( |Imx | <0.016 : 90% C.L. )

  12. Systematics check Consistency among data Sector dependence ● = 2g ; o =1g; ●=1996-1997; o=1998; ★=1999-2000 Decay plane rotation Imx = -0.0053±0.0071 (c2/d.o.f = 0.78) |qr(fwd)- qr(bwd) | ≤ 4.6×10-4 rad |qz(fwd)- qz(bwd) | ≤ 2.6×10-4 rad

  13. Source of Error S12 fwd/bwddPTx 104 e+ counter r-rotation x o 0.5 e+ counter z-rotation x o 0.2 e+ counter f-offset x o 2.8 e+ counter r-offset o o <0.1 e+ counter z-offset o o <0.1 m+ counter f-offset x o <0.1 MWPC f-offset (C4) x o 2.0 CsI misalignment o o 1.6 B offset (e) x o 3.0 B rotation (dx) x o 0.4 B rotation (dz) x x 5.3 K+ stopping distribution o o <3.0 m+ multiple scattering x x 7.1 Decay plane rotation (qr) x o 1.2 Decay plane rotation (qz) x x 0.7 Kp2 DIF background x o 0.6 K+ DIF background o x < 1.9 Analysis - - 4.0 Total <11.4 Systematic errors • S12 : 12-fold rotationalcancellation • fwd/bwd : p0 forward/backward cancellation

  14. Model implications Three Higgs doublet model L= (2√(2)GF)1/2 S[aiULKMDDR + biURMUKDL+giNLMEER] Hi+ + h.c. Imx = Im(a1b1*) ×(v2 /v3)2× (mK/ mH+)2 = Im(a1g1*) × (mK / mH+)2 vi : vacuum expectation values ai, bi, gi : mixing matrix elements • |Imx | < 0.016 (90% C.L.) ⇒ Im(a1g1*) < 544 (at mH=mZ) • cf. BR (B→Xtnt) ⇒ Im(a1g1*) < 1900 (at mH=mZ) − Neutron EDM in 3HD model dn≈ 4/3dd∝Im(a1b1*) ×md/ mH2 v2/v3 = mt/mt[R.Garisto and G.Kane, Phys. Rev. D44 (1991)2789 ] • |Imx | < 0.016 (90% C.L.) ⇒ dn< 9 ×10-27 e cm • cf. dnexp < 6.3×10-26e cm

  15. Summary • Transverse muon polarization inK+→p0m+n decay is a good probe of • CP violation beyond the standard model. • The final result of the KEK-E246 experiment showed no evidence for • T violation with Imx = - 0.0053± 0.0071(stat) ± 0.0036(syst) , or • |Imx | <0.016 (90% C.L. ). • This limit constrains the parameters of some non-standard CP violation • models with high sensitivity. • We are going to propose a next generation PT experiment at the high • intensity accelerator J-PARC.

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