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Decay and production of Q +

Decay and production of Q +. Atsushi Hosaka (RCNP, Osaka Univ). • hep-ph/0409102, PR D71: 074021 (2005) A. H., M. Oka and T. Shinozaki • hep-ph/0502093, PRD71: 054017 (2005) T. Hyodo and A. H. • hep-ph/0505134 , hep-ph/0503149 to appear PRD S.I. Nam, A.H. and H.-Ch. Kim.

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Decay and production of Q +

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  1. Decay and production of Q+ Atsushi Hosaka (RCNP, Osaka Univ) • hep-ph/0409102, PRD71: 074021 (2005) A. H., M. Oka and T. Shinozaki • hep-ph/0502093, PRD71: 054017 (2005) T. Hyodo and A. H. • hep-ph/0505134, hep-ph/0503149 to appear PRD S.I. Nam, A.H. and H.-Ch. Kim Decay and production mechanism for Q+ (JP) with renewed interest in L(1520) 北京

  2. Facts ~ very narrow width ・In production experiments, G << 20 MeV ・In KN scattering 1 MeV or less G = 1, 5, 10, 20 MeV Sibirtsev et al, PLB599 (2004) 230-235 T. Nakano et al. PRL, 91, 012002 (2003) More data from Nakano in this conference 北京

  3. gn -> K-Q+ vs. gp -> K0Q+ [Q+ or L(1520)] Outline 1. Decay of Q+ General remark Fall-apart in the quark model 2. Possibility of spin 3/2- Phenomenological analysis 3. Photoproduction reconsidered pn asymmetry 北京

  4. 1. Decay ofQ+ 北京

  5. 1/2– S-wave coupling G = 5 GeV Effect of entrifugal barrier~ 50 ! Simple estimate 1/2+ P-wave coupling M* = 1540 MeV, gKNQ ~ 10 G = 100 MeV Empirical fact: gmNN* < 10 (pNN or sNN) 北京

  6. 4q 5q ~ 3q 2q 5q ~ 5q Fall apartdecay Expected to be a dominant process in a constituent QM Fall apart, or diossociate Ni = Nf Other mechanisms? Ni < Nf 北京

  7. K-like N-like K Q+ Rearranged V N S-factor Intereaction Amplitude We consider fall apart in the quark model T ~ <KN|Q+> • Vfi 北京

  8. Interaction ~ Vfi Useful as a reference for further studies Mqq of Yukawa type for 北京

  9. S-factor ~ <KN|Q+> (0s)5 Negative parity ground state (0s)5 p s Carlson et al, PLB 573, 101 (2003) AH et al, Unique ~ AS KN state S-factor gKNQ ~ 3 => G ~ 0.5 - 1 GeV 北京

  10. Positive parity (0s)40p More complicated than s-wave due to p-wave excitation p s We consider MinimizeSpin-Flavor interaction MinimizeSpin-Color (3) Diquark correlation of JW 北京

  11. Spectroscopic factors Carlson et al, PRD70, 037501 (2004), hep-ph/0312325, Jennings-Maltman, PRD 69, 094020 (2004), hep-ph/0308286 SF JW SC > > 北京

  12. Results G(1/2-) >> G(1/2+) 北京

  13. We have seen: ・Natural width of Pentaquarks 1/2− ~ GeV 1/2+ < 100 MeV <= Centrifugal force ・Quark model values are consistent with them (0s)51/2– : as dominated by KN => can not be a narrow resonance 1/2+with JW-diquark correlation -> 10 MeV (or could be less) Spatial correlation can reduce ~ 1 MeV? dynamical question 北京

  14. Other possibility Could it be(0s)5 3/2ー • Decay into KN is suppressed due to d-wave • K*(1ー)N dominant but no decay into this channel • No spin partner of 1/2– …. Too broad to see 北京

  15. 2. Phenomenology of 3/2- baryons Hyodo-Hosaka, hep-ph/0502093, PRD71:054017 (2005) 北京

  16. SU(3) description with 8-10 mixing Q+, N1, N2, S1, S2, L, X1, X2 N S 6 parameters 北京

  17. • Choose suitable baryons of JP = 1/2+ -, 3/2+ -, adding Q+-> 6 baryons are enough • Fitting into the SU(3) scheme with 8-10 mixing 1/2+ 3/2- We can fix the mixing angle q 北京

  18. Coupling constants g8 and g10 • qN can be fixed by masses • Two nucleon decay widths determine g8 and g10 • The resulting g10 determines GQ Decay widths GQ (MeV) 北京

  19. 3. Photoproductions 北京

  20. g K0 K+ Q+ p n New data from J-Lab g p -> n K+ K0 Teken from DeVita’s talk at spring APS meeting This is serious, but showing absence of Q+ ? 北京

  21. Theoretical study hep-ph/0505134 Nam-Hosaka-Kim Effective Lagrangian method appears only for n-target 北京

  22. gn -> K- L(1520) and gp -> K0 L(1520) Prior to this was studied and large pn asymmetry was found Nam-Hosaka-Kim, hep-ph/0503149 to appear PRD The role of the contact term (Kroll-Ruderman type) was emphasized 北京

  23. Theta production, JP = 3/2- Total s Log-scale Angular dist Log-scale 北京

  24. The role of the contact term is more important for JP = 3/2- than 1/2+ 北京

  25. Predictions • We see a large asymmetry between pn targets • Cross section for proton ~ few nb is consistent with the upper limit estimated by CLAS 北京

  26. Summary • Fall-apart decay in the quark model 1/2– ~ GeV 1/2+ Several tens MeV could be 10 MeV or less for JW 3/2– ~ zero or strongly suppressed • SU(3) analysis 3/2– is a natural candidate • Photoproduction, revised There is a large pn asymmetry, especially for J = 3/2 No signal from the CLAS does not lead immediately to the absence of Q+ For L(1520), consistent with recent observation of LEPS New data from LEPS is interesting and important => Talk by Takashi Nakano 北京

  27. Comments A related work Melokov, Simula and Stech, PLB 594 (2004) 265 Claimed that G ~ 150 MeV for the JW wf Assumption In the quark model, there is no pole (hA) term ==> Can not be applied to the quark model 北京

  28. (2) 5-body calculation Recent calculation by Hiyama Gaussian Expansion Method + + . . . KN Scattering state Confined state Fall apart when R→∞ Coupling to other channels including KN changes the nature of the confined state drastically 北京

  29. KN-like JW-type 1/2– 1/2+ (0s)5 1/2– , (0s)40p 1/2+ can no longer survive 北京

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