The CP-violation experiments NA48 at CERN

1. The CP-violation experiments NA48 at CERN Manfred Jeitler Institute of High Energy Physics of the Austrian Academy of Sciences RECFA meeting Innsbruck, 26 March 2004

2. NA48 overview • the original NA48 experiment • direct CP-violation: Re e’/e • measurements in a high-intensity KS beam • KS p0 p0 p0 • KS p0e+e- and KS p0m+m- • measurements of direct CP-violation with charged kaon beams • K    + - • future ? NA48/1 NA48/2 Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

3. p0 p0 p0 p0 KS KL p+ p+ p- p- KL KS The original aim of NA48: measuring Re e’/e e’/e 0: direct CP-violation exists ”frequent“ ”rare“ / Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

4. The neutral kaon beams of NA48 Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

5. hadron calorimeter DCH DCH magnet DCH DCH The detector of the NA48 experiment at CERN • electromagnetic liquid-krypton calorimeter for measuring p0p0-decays • spectrometer (consisting of 4 drift chambers and a magnet) and hadron calorimeter for measuring p+p--decays Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

6. The liquid-krypton calorimeter • measures decays of kaons into neutral particles: K0p0p04g • filled with 9 m3 of liquid krypton • part of trigger electronics built by HEPHY, Vienna Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

7. Re e’/e : the experimental result NA48 (13.7 ± 3.1) 10-4 (15.3 ± 2.6) 10-4 Re e’/e = (14.7 ± 2.2) 10-4 NA48 (all data) Re e’/e = (16.6 ± 1.6) 10-4 new world average Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

8. Re e’/e : the shape of the theory considering the present accuracy of calculations, there is no use to further improve measurements Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

9. Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

10. Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

11. NA48 pay one – take three: NA48/1 NA48/2 2003 charged kaons 2004 charged kaons ...? Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

12. CP-violation in K0S decays: KS p 0p 0p 0KS p 0e +e - and KS p 0m +m - NA48/1

13. The high-intensity KS-beam Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

14. KS p 0p 0p 0 • CP-violating decay • no CP-conserving components such as in KS p+p-p0 • counterpart to the “classical” CP-violating decay KL p0 p0 • CP | p0p0p0 > = - | p0p0p0 > while • CP | KS> ~ CP | K1> = + | K1> • described by parameter Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

15. KS p 0p 0p 0 : the result • result consistent with zero with 5% probability • limit on branching fraction: BR(KS p0p0p0) < 1.410-6at 90% confidence level (one order of magnitude better than previous limit) Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

16. KS p 0p 0p 0 and CPT Bell-Steinberger relation Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

17. KS p 0e +e -and KS p 0m +m - Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

18. KS p 0e +e - 7 events found with a background of0.15 +0.10-0.04 Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

19. KS p 0m +m - Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

20. CP-violation in charged K decays: K    + -K    0 0 NA48/2

21. high-precision measurement of K  (3) • measure decays of K+ and K– • direct CP-violation in K  (3) : M(u,v) 1 + gu + hu2 + kv2 Ag  (g+  g–)/(g++ g–) • measurement of the ratio R (u) dvM+(u,v)2  dvM–(u,v)2 constant • simultaneousK+ and K–beams • same acceptance, alternating magnetic field Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

22. and expected experimental accuracy asymmetry parameter Ag in K  (3) theoretical predictions Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

23. KAon BEam Spectrometer (“Micromegas” detector) Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

24. KABES: KAon BEam Spectrometer (a MICROMEGAS detector) Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

25. charged Ke4 decays K+/-p+p-e+/-n • experimental observation of quark-antiquark condensate • s-wave scattering length a00 in pp-scattering at low energy • earlier experiments statistically and systematically limited • Rosselet et al., 1977 • Brookhaven, 2001 • neutral Ke4-decay (K0L p0 p-/+ e+/- n ) was studied by the Vienna group (Laurenz Widhalm, Heinz Dibon) Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

26. future plans: K+→ p +nn • so far, three events seen at BNL (E787 and E949) • decay established but not enough statistics to check Standard Model • plans to collect ~100 events at FNAL (CKM experiment): financial difficulties • idea to use CKM’s expertise and parts of the NA48 detector at CERN SM prediction: BR(K+→ p +nn) = 7.1 ± 1.0 × 10-11 Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

27. Conclusion:NA48 has yielded an unexpectedly large amount of valuable results.....and may still continue to do so!

28. backup

29. KS p0p0p0 • special interest: test of CPT invariance • if CPT is conserved • and there are no transitions to I = 3, or to nonsymmetric I = 1 states: • A1 : I=1 amplitude • real part fixed by CPT • imaginary part sensitive to direct CP-violation • Bell-Steinberger relation • connects CPT violating phase d with h parameters via unitarity: Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

30. KS p0p0p0 : the approach • time evolution of KL,S p0p0p0 I3p0 (t) ~ e-GLt + KL decay “dilution” D is momentum dependent • look for interference term | h000 |2e-GSt + KS decay 2 D(p) (Re (h000 ) cos Dmt – Im (h000 ) sin Dmt) e-(GS+ GL)t / 2 KL – KS interference term Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

31. NA48/1: preliminary result for h 000 Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

32. Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

33. CP-violation: indirect / direct ? • CP-violation first seen in KLpp decays (1964) • KL and KS are mixtures of CP-eigenstates K1 and K2 • KL = K2 + e K1 • KS = K1 + e K2 • mixing responsible for most of the observed CP-violation • parameter e • known since long ago • see Michele Veltri’s talk for new measurement by NA48 • but longstanding question: is there “direct” CP-violation? • K2pp ?? • parameter e’ • small effect  need high-precision measurement ! Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

34. the NA48 approach to measuring Re e’/e • almost collinear neutral kaon beams (KL and KS ) • same decay volume •  take all 4 modes at same time and place ! • “weighting” of KL decay events with KS lifetime • eliminate acceptance effects in first order • reduce systematic effects at expense of statistics • distinguish KL and KS by “tagging” protons to “KS target” • “second experiment” in 2001 • new drift chambers • different spill structure and instantaneous beam intensity • different beam energy Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

35. rare decays at NA48 • “KL”-beam: • KL p+ p- e+ e- indirect CP-violation • KL p+/- e-/+ p0 n form factors, pp – phase shifts, chiral perturbation theory • KL p0 g g CP-conserving contribution in KL  e+ e- p0 • KL  e+ e- g form factors • KL  e+ e- g g background for KL  e+ e- p0 • KL  e+e- e+e- CP-eigenvalue of KL • “KS”-beam: • X0L p0X0 mass • X0L g non-leptonic weak interaction • X0S0 g • L0p p-transversal L-polarization Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

36. KS / KL p0p0p0interference dependence of interference on f000 (phase of h000 ) Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

37. Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

38. Dalitz decays: p0 ge+e- KS p0 e+e- Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

39. Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

40. Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

41. Kl3 decays and Vus • test of CKM unitarity • |Vud|2 + |Vus|2 + |Vub|2 = 0.9957  0.002 : deviation from unity • |Vus| contributes nearly 30% of uncertainty • |Vus| calculated from G(Ke3) and G(Km3) • K  p0en and K  p0mn • precise measurement will improve CKM unitarity test Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004

42. charged kaon decays: the NA48 approach • cancellation of systematic effects is essential • adapt NA48’s proven concept: simultaneous, collinear beams • use same detector without major modifications • beam particles are charged  measure their momentum ! Manfred Jeitler, Institute of High Energy Physics, Vienna: The NA48 experimentInnsbruck, 26 March 2004