???????f0(980)???????? - PowerPoint PPT Presentation

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???????f0(980)????????

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Short life time, no stable target. Produced hadrons in e e- scattering. p, k, p, a0, f0, et al. ... Relation between the 2nd moments of FFs ... – PowerPoint PPT presentation

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Title: ???????f0(980)????????


1
???????f0(980)????????
  • ???? (?????)
  • ???????(???), ????(KEK),
  • ????(KEK)
  • To be published in PRD
  • arXiv0708.1816 hep-ph
  • 2008, Jan. 12 _at_KEK

2
Contents
  • Introduction
  • Fragmentation functions (FFs)
  • Global analysis
  • Possible f0(980) configurations
  • Results discussion
  • Behavior of obtained FFs
  • 2nd moments of FFs
  • Summary

3
Introduction
  • Internal structure of exotic hadrons
  • Parton distribution functions (PDFs)
  • Measured by deeply inelastic scattering (DIS )
    experiments
  • Need stable targets (ex. proton)
  • Exotic hadron ?
  • Decay
  • Short life time, no stable target
  • Produced hadrons in ee- scattering
  • p, k, p, a0, f0, et al.
  • Fragmentation functions (FFs)
  • Information about internal structure of produced
    hadrons

4
Fragmentation Functions (FFs)
  • Information of hadronization
  • Probability to find the hadron h from a parton i
    with energy fraction z Dhi(z)
  • Containing no perturbative object
  • Determined by a global analysis with experimental
    data in ee?? h X
  • Similar behavior to PDFs
  • Favored FF like valence quarks
  • A constituent of produced hadrons
  • Peak position at medium and large-z
  • Disfavored FF like sea quarks
  • Peak position at small-z

5
Global analysis of FF
  • Cross sections observable
  • DGLAP equation
  • Scale QmFmR ?s center of mass energy

Coefficient Function - calculable in pQCD
Fragmentation Function - extracted from
experiments
6
Fragmentation functions of f0(980)
  • Functional form of initial distributions at Q02
  • Constraint condition
  • 2nd moment should be finite and less than 1

7
Possible f0(980) configurations
8
Results
  • c2/d.o.f. 0.907
  • Total of data 23
  • Tetra quark configuration
  • Becoming favored FFs for light and strange quarks
  • Peak position at large-z (z0.85)
  • zumax zsmax
  • SS configuration
  • Mu/Ms0.43 ? 6.73
  • Mu lt Ms
  • Large uncertainty
  • Need precise measurements to reduce their huge
    uncertainties
  • 2nd moments
  • Mu0.0012 ? 0.0107
  • Ms0.0027 ? 0.0183
  • Mg0.0090 ? 0.0046

9
Comparison of data with theory
  • Large uncertainty
  • Consistent with deviation of experimental data
    with their errors
  • Rather large uncertainty at low Q2
  • Reducing the uncertainties
  • Needs of precise data
  • Wide rage of Q2
  • Determination of gluon FF
  • Belle experiment ?s11 GeV
  • Heavy quark tagged data
  • Charm, bottom quarks ? f0(980)

10
Summary
  • Internal structure of the exotic hadron from
    fragmentation functions
  • Global analysis of FFs with the data of the
    f0(980) production
  • Favored disfavored FFs valence sea quarks
  • Peak position zmax
  • Relation between the 2nd moments of FFs
  • Intuitive estimation of order counting for the
    f0(980) production in various quark
    configurations
  • Indicating tetra-quark and ss configuration
  • Tetra-quark peak position of the up(down)
    strange quark FFs
  • SS relation of the 2nd moments
  • Huge uncertainties of the FFs and 2nd moments
  • Low accuracy of experimental data
  • Need precise measurements from the Belle
    experiments
  • Model predictions for the FFs
  • Relation between behavior of FFs and quark
    configurations

11
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12
Global analysis of FFs
  • Q2 dependence of FFs
  • DGLAP eq
  • Q02 1GeV2
  • Minimizing c2
  • Error estimation
  • Hessian method
  • D?2 (N12) 13.74
  • Data sets of f0(980)
  • HRS4 (?s29.0 GeV, 0.165lt z lt0.554)
  • PRL 57, 1990 (1986)
  • OPAL8 (?s91.2 GeV, 0.092lt z lt 0.75)
  • EPJ C4,19 (1998)
  • DELPHI10 (?s91.2 GeV, 0.078lt z lt 0.7)
  • PL 449B,364 (1999),ZP C65, 587 (1995)
  • Total of data 23
  • NLO analysis
  • MS scheme
  • Reduction of theoretical uncertainty
  • c2/d.o.f. 0.907
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