1 / 13

Investigations of Semileptonic Kaon Decays at the NA48 Е xperiment

Investigations of Semileptonic Kaon Decays at the NA48 Е xperiment. Milena Dyulendarova (University of Sofia “St. Kliment Ohridski”) for NA48 Collaboration. Outline of the Talk. Theoretical Description NA48 Experiment Analyses of K L → π e ν e (K 0 e3 ) decay modes NA48/2 Experiment

vaughan-best
Download Presentation

Investigations of Semileptonic Kaon Decays at the NA48 Е xperiment

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. Investigations of Semileptonic Kaon Decays at the NA48 Еxperiment Milena Dyulendarova (University of Sofia “St. Kliment Ohridski”) for NA48 Collaboration

  2. Outline of the Talk • Theoretical Description • NA48Experiment • Analyses ofKL →π e νe(K0e3)decay modes • NA48/2Experiment • Analysis ofK±e3decay • Conclusion

  3. Theoretical Description • Dalitz plot density: where mK-massof particle i, E*i –energy of iinCoM (center of mass); fS, fV (f+and f-), f T- scalar, vector and tensor form factors. - four momentum transferred to the lepton pair; • The vector form factors can be approximated by Taylor expansion with

  4. NA48 Experiment • Designed for measurement of direct CP-violation in the K0 system • Simultaneous near collinear beams of KL and KS with average energy ~110 GeV

  5. NA48 Experiment - Detector System • Magnet Spectrometer (two drift chambers DCH before and two DCH after the magnet spectrometer) • Hodoscope CHOD • (time resolution – 200 ps per track) • Homogenous electromagnetic calorimeter LKr • Hadron calorimeter HAC • Muon veto system MUV

  6. KL →π e νe(K0e3)Analysis Experimental data • Special run with KL beam - September (1999) • ~2 TBdata recorded • 5.6 millionK0e3events were selected and analyzed. MC simulation • The detector performance is simulated by GEANT package. • The radiative correctionsin (virtual and real) were generated by PHOTOS routine. Basic Selection Criteria • Two tracks with different charges coming from a common vertex • Vertex located in the decay region • Tracks in detector aperture • Time difference of the tracks

  7. K0e3 Analysis (continued) • Minimal momentum of each track pmin = 10 GeV • Minimal distance between tracks • Identification of the particles in the final state 0.93 < E/p < 1.1 for one of the tracks (e±) &E/p < 0.9 for the other one (π±) • No MUV signal around the event time (± 6 ns) Background

  8. Assuming only V-A couplings: the linear dependence of the K0e3 vector form factor on q2 is: in addition a quadratic term is admitted: Admitting scalar and tensor couplings in addition to V-A currents linear slope of the f+(q2): and the following form factor values: polar parametrization: K*(892) Experimental Results for K0e3

  9. Worldresults NA48: fS/f+(0) < 0.028 fT/f+(0) < 0.09 PDG: fS/f+(0) < 0.04 fT/f+(0) < 0.23

  10. NA48/2 Experiment – Charged Beam Formation • Simultaneous K+ and K- beams with average energy ~60 GeV • Two achromat systems – two dipole magnets with opposite polarities • Kaon Beam Spectrometer (KABES)

  11. Analysis of K±e3 Decay DATA • 56 hours special run taken in 2002. • About 4 million K±e3events were selected. MC • The NA48/2 detector response is simulated by MC program based on GEANT. • The radiative corrections in K±e3 were generatedby using GinsbergandPHOTOS routine. Basic Selection Criteria • 1 charged track forming a vertex with the z-axis • Vertex in decay region • Detector geometry acceptance • Minimum momentum of the Ptr > 5 GeV • e± and 0 identification • Event in Dalitzplot region

  12. Analysis of K±e3 Decay Dalitz plot distribution from Ginsberg+PHOTOS simulation Background Reducing main K  0background - region excluded: • 55 GeV < EK < 65 GeV • 234 MeV < E* < 264 MeV • MK 12 MeV around the PDG value Comments • Summing all sources the systematic error is less 1% (maximal possible value) • The systematic uncertainty is < 0.5%

  13. Conclusion • TheK0e3results are in agreement with the linear approximations tested in former experiments. • The slope in the vector form factor is measured witha high precision • The scalar and tensor form factors are consistent with zero, the measurement is the most precise up to now • The results areconsistent with a lack of quadraticterm in the vector form factor, and at the same time consistent with a Taylor expansion of a pole-dominance form factor with a pole mass of MV=859±18 MeV • . K±e3decay mode is under detailed investigation.

More Related