Observation of a near-threshold enhancement in  mass spectrum from J/  

1. Observation of a near-threshold enhancement in  mass spectrum from J/   彭 海 平 中国科学技术大学 广西桂林（29/10/2006）

2. Outline • Introduction • BES Detector and Event Selections • Partial Wave Analysis • Results and Discussions • Summary penghp@mail.ihep.ac.cn

3. PRL 93(2004), 112002 Introduction • QCD predicts a rich spectrum of glueballs, hybrids and four quark states in 1.0 to 2.5GeV/c2 mass region. Radiative J/ decays provide an excellent laboratory to search for these states. • Enhancements near threshold in the invariant mass spectra of and were observed in the J/ decays by BESII experiment. These surprising observations stimulated many theoretical speculations. Therefore it is interesting to search for possible resonances in other final states. J/ygpp PRL. 9(2003) 022001 M(pp)-2mp (GeV) penghp@mail.ihep.ac.cn

4. Introduction • Systems of two vector particles, such as  and , can be produced in the J/ radiative decay with OZI suppressed process, and pseudoscalar enhancements have been seen in the  and  invariant mass threshold. Unlike  and  final states process, J/   is a DOZI suppressed process, and its production ratio should be suppressed by at least one order. Therefore the measurement of this decay and search for possible resonant states are interesting J/,  OZI J/DOZI penghp@mail.ihep.ac.cn

5. BES Detector &Event Selections • 4 good tracks with |cos|<0.8 in MDC; • The total charge is required to be 0; • PID: TOF and dE/Dx information; • 3-6 good photon candidates from BSC; • Five-constraint energy-momentum conservation kinematic fit is made under the J/K+K-+ - 0 hypothesis with probability larger than 1%; • Cut |E1- E2|/|E1 + E2|<0.90 is applied to the two photons from 0 to remove the background with false 0; penghp@mail.ihep.ac.cn

6. K+K- & +-0 mass spectra     Dalitz plot  B.G. J/K*K penghp@mail.ihep.ac.cn

7.  Invariant Mass Clear Enhancement Acceptance Curve Phase Space After Efficiency Correction The enhancement on the threshold is not from the phase space ! penghp@mail.ihep.ac.cn

8. B.G. From Sideband B.G. from sideband, no enhancement on threshold ! penghp@mail.ihep.ac.cn

9. B.G. Check • J/  0 and J/   are forbidden by C-invariance. • Many possible exclusive MC samples are generated to check the background, no events peak on the threshold. The main background is from J/  K*K, but it peaks at the high mass region of . • 60M Inclusive MC data, no enhancement on threshold ! Inclusive B.G. J/K*K • About 2272nb-1 data with 3.07GeV center mass energy are used to check the continuum contribution, no events are survived. • As a check, the branching fraction of J/   is measured, the results is consistent with that from the J/  K+K-K+K-, but with a larger error. penghp@mail.ihep.ac.cn

10. Partial Wave Analysis • Two body decay: • Decay amplitude: • Helicity coupling amplitude : Amplitude Construction : Covariant Helicity Coupling Amplitude J,S,: The spin of particle. M,,: The helicity of particle. , : The polar and azimuthal angle. M. Jacob and G.C. Wick, Ann. Phys. (N.Y) 7, 404(1959); S.U.CHUNG, BNL-QGS94-21; S.U.Chung .Phy. Rev. D57, 1998; 431; S.U.Chung. Phy. Rev. D48, 1993; 1225; Ning Wu and Tu-Nan Ruan, Commun, Theor. phys. (Beijing China) 35(2001)547 penghp@mail.ihep.ac.cn

11. Sequential decay process amplitude: The total differential cross section: The probability density function p(j,): Partial Wave Analysis Phase space Normalization penghp@mail.ihep.ac.cn

12. PWA Process • The normalization constant can be obtained by M.C integral from phase space M.C sample. • The likelihood function: • The task of PWA is to fit the unknown parameters, and get the minimum value of , CERNLIB MINUIT package is used. penghp@mail.ihep.ac.cn

13. PWA Results • The best fitting is that with both the  and X systems being S-wave, which corresponds to a 0++ scalar state considering the C-parity of the . • Statistical significance is larger than 10 ! • The mass and width: • The branching ratio: penghp@mail.ihep.ac.cn

14. PWA Results • If the system of X is treated as D-wave, the mass and width of the resonance, as well as the log likelihood value do not change much. However, if the system of  is treated as D-wave, the log likelihood value gets worse by about 40. • If the resonance is fitted with 0-+ spin-parity, the log likelihood value gets worse by about 58. • If the resonance is fitted with 2-+ spin-parity, the log likelihood value gets worse by about 17. • If the resonance is fitted with 2++ spin-parity, the log likelihood value gets worse by about 4.7. Although the fit is not too much worse than 0++ case, but there is only one free parameter for 0++, while four free parameters for 2++. Also, D-wave is required for  system, if only S-wave is used in the fit, the log likelihood value get worse by about 13. penghp@mail.ihep.ac.cn

15. Discussions • The mass and width of this state are not compatible with any known scalars listed in PDG! • The decay is DOZI suppressed process, and the phase space of X(1810) is small, so the branching ratio should be three order of magnitude weaker than the OZI suppressed process if the resonance is a ordinary q qbar meson (hep-ph/0602072). • It could be a multiquark/hybrid/glueball state. hep-ph/0602072, 0602172, 602190, 0603018, 0604141, 0606196 • Its relation with f0(1710),f0(1790)? Further look in , K*K*,  …. are desirable ! penghp@mail.ihep.ac.cn

16. BESII J/ PRD73 (2006) 112007 w signal after best candidate selection   sideband penghp@mail.ihep.ac.cn

17. BESII J/ PRD73 (2006) 112007 • PWA of helicity coupling amplitude is performed. • Dominated by (1760): • A scalar is needed around 1.8GeV/c2 with 6.5. But the mass and width are very difficult to be determined due to dominant contribution of pseudoscalar. M = 1744  10  15 MeV/c2  = 244  23  25 MeV/c2 Br( J/  (1760)) Br( (170)  ) = (1.98  0.08  0.32 ) x 10-3 Inclusive B.G. Br( J/  0++ ) Br( 0++  ) = (0.31  0.05  0.08 ) x 10-3 penghp@mail.ihep.ac.cn

18. Summary • The doublely OZI suppressed decay J/ is studied based on BESII 58M J/ data. • An enhancement near  threshold is observed with a statistical significance of more than 10. • PWA with covariant helicity coupling amplitudes is performed, the 0++ spin-parity of the enhancement is favored. • The mass, width and product branching fraction are not compatible with any known scalars listed in PDG. It could be an unconventional state. penghp@mail.ihep.ac.cn

19. 谢 谢 penghp@mail.ihep.ac.cn

20. Publications • PRL 96 162002(2006) BES Collab. • Observation of a Near-Threshold Enhancement in the omega phi Mass Spectrum from the Doubly OZI-Suppressed Decay J/psi->gamma omega phi • Received 16 February 2006; published 27 April 2006 • An enhancement near threshold is observed in the invariant mass spectrum from the doubly Okubo-Zweig-Iizuka–suppressed decays of J/Psi , based on a sample of 5.8×10^7 J/Psi events collected with the BESII detector. A partial wave analysis shows that this enhancement favors J^P=0^+, and its mass and width are M=1812 (stat)±18(syst) MeV/c^2 and =105±20(stat)±28(syst) MeV/c^2. The product branching fraction is determined to be B(J/Psi->Gamma X)B(X->omiga phi )=[2.61±0.27(stat)±0.65(syst)]×10-4. • SPIRES-HEP search(2006-10-23) 14 times cited penghp@mail.ihep.ac.cn

21. Publications • PRD 73 (2006) 112007 BES Collab. • Pseudoscalar production at omegaomega threshold in J/psi-->gamma omega omega • Received 24 April 2006; published 14 June 2006) • The decay channel J/\psi->gamma omega omega, omega -> pi+ pi- pi0 is analyzed using a sample of 5.8x10^7 J/psi events collected with the BESII detector. The omega omega invariant mass distribution peaks at 1.76 GeV/c^2, just above the omega omega threshold. Analysis of angular correlations indicate that the omega omega system below 2 GeV/c^2 is predominantly pseudoscalar. A partial wave analysis confirms the predominant pseudoscalar structure, together with small 0^{++} and 2^{++} contributions, and yields a pseudoscalar mass M = 1744 \pm 10 (stat) \pm 15 (syst) MeV/c^2, a width Gamma = 244^{+24}_{-21} (stat) \pm 25 (syst) MeV/c^2, and a product branching fraction Br(J/psi-> gamma eta(1760)) \cdot Br(\eta(1760)->omega omega) = (1.98 \pm 0.08 (stat) \pm 0.32 (syst)) x 10^{-3}. penghp@mail.ihep.ac.cn