Searches for exotic mesons

1. Searches for exotic mesons Stephen L. Olsen University of Hawai’i u c • Multi-quark molecules • qq-gluon hybrids • baryonium u c c c d u u u d u DOE site visit Aug 22, 2005

2. test of QCD: “running” as

3. Probe QCD from other directions non-qq or non-qqq hadron spectroscopies: Reawakened by the claims for Pentaquarks e.g. an S=+1 baryon d u u d s

4. Pentaquarks? “Seen” in many experiments but not seen in just as many others Compass Jlab p BES Belle BaBar CDF High interest: 1st pentaquark paper has >500 citations

5. Pentaquark Scoreboard Positive signals Negative results Also: Belle Compass L3 Jlab(CLAS) (gpK+Ksn) Yes: 17 No: 18

6. This talk • Searches for non-standard mesons with hidden charm at Belle • Search for baryonium mesons at BES c c u c u c d u u u d u

7. searches for non-standard mesons with “hidden charm” at Belle u c (i.e containing c & c) • standard cc mesons are: • best understood theoretically • narrow & non overlapping • c + c systems are commonly produced in B meson decays. u c c c c c Vcb b W- cosqC s CKM favored

8. Thanks to KEKB, Belle has lots of B mesons(>1M BB pairs/day) >1fb -1/day Design: 10 34

9. X(3872)p+p-J/y BK p+p-J/y y’p+p-J/y X(3872)p+p-J/y M(ppJ/y) –M(J/y) S.-K.Choi, S.L.Olsen et al (Belle) PRL 91 262001 (2003)

10. Its existence is well establishedseen in 4 experiments CDF 9.4s 11.6s X(3872) D0 X(3872) hep-ex/0406022

11. Is it a cc meson? Could it be one of these? 3872 MeV These states are already identified

12. no obvious cc assignment hc” hc’ cc1’ y2 hc2 y3 M too low and G too small angular dist’n rules out 1+- 3872 G(gJ/y) way too small G(gcc1) too small;M(p+p-) wrong pp hc should dominate G( gcc2 & DD) too small SLO hep-ex/0407033

13. go back to square 1 Determine JPC quantum numbers of the X(3872) with minimal assumptions

14. JPC possibilities (for J ≤ 2)

15. JPC possibilities0-- ruled out; JP=0+,1- & 2+ unlikely

16. Strong evidence for C=+1 X(3872)gJ/y X(3872)p+p-p0J/y 12.4 ± 4.2 evts virtual w(782)? M(p+p-p0) Br(X3pJ/y) Br(X2pJ/y) = 1.0 ± 0.5 13.6 ± 4.4 X(3872)gJ/y evts (>4s significance) X(3872)p+p-J/y Bf(XgJ/y) Bf(XppJ/y) =0.14 ± 0.05 Fits to r(760) M(p+p-)

17. JPC possibilities (C=-1 ruled out)

18. Angular Correlations r Jz=0 J=0 X3872 J=0 K z Rosner (PRD 70 094023) Bugg (PRD 71 016006) Suzuki, Pakvasa (PLB 579 67) J/y

19. 0++ 0-+ q qlp y c2/dof=18/9 c2/dof = 34/9 |cosq| c2/dof=34/9 |cosqlp| rule out 0++ & 0 -+ |cosy|

20. JPC possibilities (0-+ & 0++ ruled out)

21. M(pp) can distinguish r-J/y S- & P-waves P-wave: c2/dof = 71/39 S-wave: c2/dof = 43/39 (CL=0.1%) (CL= 28%) q* roll-off q*3 roll-off Shape of M(pp) distribution near the kinematic limit favors S-wave

22. Possible JPC values (J-+ ruled out)

23. X(3872)D0D0p0 ? D*0D0p0? • 1++ : DD* in an S-wave  q* • 2++ : DDp in a D-wave  q*5 Strong threshold suppression M(D0D0p0) 11.3±3.6 sig.evts (>4s) Bf(BKX)Bf(XDDp)=2.2±0.7±0.4x10-4

24. Possible JPC values (2++ ruled out) 1++ 1++

25. can it be a 1++ cc state? 1++cc1’ Mass is too low 3872 Bf(Xp+p- J/y)>4% is too large p+p- (Isospin forbidden) cc1’ component of X(3872) is ≤ few%

26. Intriguing fact lowest mass charmed meson lowest mass spin=1 charmed meson MX3872 =3872 ± 0.6 ± 0.5 MeV mD0 + m D0* = 3871.2 ± 1.0 MeV Deuson? deuteron-like DD* bound state? 2 loosely bound qq color singlets with M= mD + mD* - d c c D p D* u u one p exchange attractive for 1++ Tornqvist PLB 590, 209 (2004)

27. X(3872) = D0D*0 bound state? • JPC = 1++ is favored • M ≈ mD0 + mD0* • Large isospin violation is natural (& was predicted):  |D0D*0> = 1/2(|10> - |00>) • G(XgJ/y) < G(XppJ/y) was predicted • G(XD0D0p0) too large? Tornqvist PLB 590, 209 (2004) Equal mixture of I=1 & I =0 Swanson PLB 588, 189 (2004) Swanson PLB 598, 197 (2004)

28. X(3872) conclusion • JPC = 1++ • cc content is small • matches most expectations for a D0D*0 bound state C C u c u c a non-qq meson

29. Are there others?Is the X(3872) a one-of-a-kind curiousity? or the 1st entry in a new spectroscopy? Look at other B decays  hadrons+J/y: BK h J/y BK p J/y BK w J/y

30. BK wJ/y in Belle “Y(3940)” M≈3940 ± 11 MeV G≈ 92 ± 24 MeV Mbc Mbc Mbc M(wJ/y) MeV S.K. Choi & S.L.Olsen et al. (Belle), PRL94, 182002 (2005)

31. Y(3940): What is it? Brambilla et al (QWG) hep-ph/0412158 • Charmonium? • Conventional wisdom: wJ/y should not be a discovery mode for a cc state with mass above DD & DD* threshold! • Some kind of w-J/y threshold interaction? • the J/y is not surrounded by brown muck; can it act like an ordinary hadron? w J/y

32. Y(3940): What is it (cont’d)? • another tetraquark? • M ≈ 2mDs • not seen in YhJ/y • (h contains ss) • width too large?? • no p exchange for DSDS c s s c ?? PRL 93, 041801 M(h J/y)

33. Y(3940): What is it (cont’d) ? • cc-gluon hybrid? • predicted by QCD, • decays to DD and DD* are suppressed (“open-charm” thresh = mD + m D** = 4.3 GeV) • large hadron+J/y widths are predicted • masses expected to be 4.3 ~ 4.4 GeV (higher than what we see) c c Horn & Mandula PRD 17 898 (1974) + (many) others

34. BaBar’s Y(4260) 211 fb-1data collected at √(s) = 10.58 GeV 11802110(2S) evts 12523Y(4260) evts (2S) Y(4260) M=4259  8 MeV G = 88  23 MeV J/ sideband B. Aubert et al. (BaBar) hep-ph/0506081 Well above DD & DD* threshold but found in an OZI-suppressed mode??

35. cc summary • X(3872): • JPC established as 1++ • cc component is small (≤ few %) • all properties consistent with a D0D*0 bound state u c a non-standard meson u c • Y(3940) Belle, Y(4260) BaBar c c ????? • - Lots to do: • determine JPC ; find other modes (DD*, DsDs, …?)

36. Hardronic charmonium transitions G(y’p+p-J/y) 70 keV G(y”p+p-J/y) 50 keV G(y’hJ/y)  5 keV SUF(3) violating HW (for theorists): How can G(Y3940)wJ/y) and G(Y(4260)p+p-J/y) be ~1000x larger? p+p- p+p- h

37. Baryonium at BES??? d u u u d u

38. Phys. Rev. Lett. 91, 022001 (2003) J/y g pp (at BES) acceptance weighted BW M(pp) +3 +5 -10 -25 M=1859 MeV/c2 G < 30 MeV/c2 (90% CL) 0 0.1 0.3 0.2 3-body phase space M(pp)-2mp (GeV)

39. Baryonium potential & Wave fcn G.J. Dung & M.L. Yan hep-ph/0502127 Potential barrier “Rectangularized” Skyrmion-type potential I = 0, Jpc=0-+ pp annihilation M ~ 1860 MeV G ~ 16 MeV  large uncertainties -V0d(r) X  p+p- h’should be a strong channel

40. M(p+p-h’) from J/y g p+p-h’ The +- mass spectrum for  decaying into +- and   7.7 M = 183463 MeV G = 68  20 8 MeV BESII Preliminary

41. _ Re-fit to J/p p including FSI Include FSI curve from A.Sirbirtsev et al. ( Phys.Rev.D71:054010, 2005) in the fit (I=0) M = 1830.6  6.7 MeV  = < 153 MeV @90%C.L. In good agreement with X(1835)

42. Appendix • Other new hidden charm particles from Belle (near 3940!) • X(3940) • Z(3931)

43. Other new particles from Belle e+e-J/y + X

44. X(3940)DD* seen(DD & wJ/y not seen)

45. gg  Z(3931) DD at Belle sin4q (J=2) 4111 evts (5.5) M=3931 4  2 MeV =208 3 MeV

46. Z(3931) = cc1’(almost for sure) ? X(3940)  Y(3940) (maybe the hc’’)

47. Hawaii particles • hc’ • X(1860)(pp) • X(3872) • Y(3940)

48. Back-up slides

49. Jon Coleman Moriond-QCD March 2005 e+e-B+B- K-X0 244 fb-1 • Can measure absolute B.F.’s of B-K-X0 J/y Lower limit on BF(XJ/ypp) > 4.3% @ 90% C.L cc2 cc1 cc0 Very clear J/y and hc signals N J/y=258+- 42 N hc =266 +-42 • cc2,cc0<<cc1 • X(3872) production much lower than for other Charmonium states: • can set lower limit on B.F.

50. Kinematic variables BK gJ/y Ecm/2 e+ e- B B ϒ(4S) Ecm/2 DE CM energy difference: BK gJ/y Beam-constrained mass: Mbc