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Sorakrai Srisuphaphon

Role of pentaquark components into f meson production proton-antiproton annihilation reactions. Sorakrai Srisuphaphon. Outline. Introduction The proton wave functions with pentaquark component The transition amplitude for f meson production in proton-antiproton annihilation reactions

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Sorakrai Srisuphaphon

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  1. Role of pentaquark components into f meson production proton-antiproton annihilation reactions SorakraiSrisuphaphon

  2. Outline • Introduction • The proton wave functions with pentaquark component • The transition amplitude for f meson production in proton-antiproton annihilation reactions • Results and Conclusions

  3. u u d proton Introduction Baryons being bound states of three quarks. The proton might contain a substantial strange quark-antiquark component Deep Inelastic Scattering The non-zero strange spin of the proton The strangeness magnetic moment can be extrapolated from the strange magnetic form factor Several experimental measurements suggest a positive value for

  4. u u d The presence of a uudss piece in the proton wave function.

  5. pentaquark The proton wave functions with 5q component with

  6. The corresponding spatial state labeled by

  7. spin orbital color singlet color orbital-flavor-spin flavor-spin flavor Construction of multiquark states in group theory.Y. Yan,  S. Srisuphaphon Prog.Part.Nucl.Phys. 67 (2012) 496-501

  8. color orbital-flavor-spin orbital 1 3 4 2 1 2 4 3 1 2 3 4

  9. spatial spin flavor

  10. Transition amplitude The transition amplitude for f meson production in proton-antiproton annihilation reactions

  11. ( ) Choosing the plane wave basis for the relative motion of the proton and antiproton

  12. spin-color-flavor weight are geometrical constants depending on the radial parameters

  13. The protonium wave function in momentum space for fixed isospin I Including the initial state interaction for the atomic state of the system

  14. The partial decay width for the transition of the state to the two-meson state Branching ratio the partial decay width divided by the total width statistical weight

  15. Reducingthe model dependence Choosing a simplified phenomenological approach that has been applied in studies of two-meson branching ratios in nucleon-antinucleon and radiative protonium annihilation. The initial-state interaction coefficients we use a kinematical phase-space factor of the phenomenological form are related to the probability for a protonium state to have isospin I and spin J

  16. Results The effective strength parameter has to be adjusted to data

  17. Conclusions Branching ratios The model prediction only in the configuration of is agree well with the experimental data.

  18. Thank you for your attention

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