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Determination of the strangeness contents of light-flavour isoscalars from its production rates in hadronic Z decays measured at LEP

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 Added by Vladimir Ouvarov
 Publication date 2001
  fields
and research's language is English
 Authors V. Uvarov




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A new phenomenological approach is suggested to determine the strangeness contents of light-flavour isoscalars. This approach is based on phenomenological laws of hadron production related to the spin, isospin, strangeness content and mass of the particles. The ``effective numbers of s and bar{s} quarks in the isoscalar partners i_1 and i_2 are given by the nonstrange-strange mixing angle phi: k(i_1)=2sin^2phi and k(i_2)=2cos^2phi. From the total production rates per hadronic Z decay of all light-flavour hadrons measured so far at LEP the values for k are found to be: k(eta) equiv 2-k(eta^{prime}) = 0.91 pm 0.12, k(phi) equiv 2-k(omega) = 1.94 pm 0.09, k(f_2^{prime}) equiv 2-k(f_2) = 1.84 pm 0.21 and k(f_0) = 0.09 pm 0.13. Our results on the eta--eta^{prime}, omega--phi and f_2--f_2^{prime} isoscalar mixing are consistent with the present experimental evidence. Quite remarkably, our value for k(eta) corresponds to the singlet-octet mixing angle theta_P = -12.4^{circ} pm 3.5^{circ}. The obtained strangeness content of the f_0(980) scalar/isoscalar is not consistent with the values supported by different model studies. However, taking the f_0(980) in our analysis with the mass of the bare state (K-matrix pole) f_0^{bare}(720 pm 100), the mixing angle is found to be: |phi_S^{bare}| = 73^{circ} pm 7^{circ} pm 24^{circ}, in good agreement with the prediction of the K-matrix analysis.



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113 - V.A. Uvarov 2001
A new phenomenological approach is suggested for determining the strangeness content of light-flavour isoscalars. This approach is based on phenomenological laws of hadron production related to the spin, isospin, strangeness content and mass of the particles. From the total production rates per hadronic Z decay of all light-flavour hadrons, measured so far at LEP, the values of the nonstrange-strange mixing angles are found to be |phi_P| = 42.3^{circ} pm 3.5^{circ}, |phi_V| = 10^{circ} pm 8^{circ}, |phi_T| = 16^{circ} pm 11^{circ} and |phi_S| = 13^{circ} pm 9^{circ}. Our results on the eta-eta^{prime}, omega-phi and f_2-f_2^{prime} isoscalar mixing are consistent with the present experimental evidence. The strangeness content obtained for the f_0(980) scalar/isoscalar is not consistent with the values supported by recent model studies and is discussed further in the framework of our approach and the K-matrix analysis.
The measurements of hadronic structure functions of the photon based on the reaction ee --> ee gamma^(*)(P^2) gamma^*(Q^2)--> ee hadrons are discussed.
114 - V.A. Uvarov 2002
The mean charge multiplicity in hadronic three-jet Z decays has been measured with the DELPHI detector as a function of the event topology and compared with recent theoretical calculations. The QCD colour factor ratio C_A/C_F was determined, and the gluon contribution to this multiplicity was extracted giving a measurement of the mean charge multiplicity of a two-gluon colour-singlet system as a function of the effective c.m. energy covering the range from 16 to 52 GeV.
58 - V. Uvarov 2000
Mass dependences of the total production rates per hadronic Z decay of all light-flavour hadrons measured so far at LEP are extrapolated to the zero mass limit (m=0) using phenomenological laws of hadron production related to the spin, isospin, strangeness content and mass of the particles. The vector-to-pseudoscalar and meson-to-baryon ratios at m=0 are found to be: rho^+ / 3 pi^+ = 1.2 +/- 0.3 and pi^+ / p = 2.9 +/- 0.3, in good agreement with the predictions of quark combinatorics.
95 - T. Wengler 2006
Multi-hadronic events produced in e+e- collisions provide an excellent laboratory to study QCD, the theory of strong interactions, and in particular to determine the strong coupling parameter alpha_s and demonstrate its predicted behavior as a function of the energy scale. Determinations of alpha_s at LEP will be reviewed with emphasis on event shape variables and jet rates in 3-jet and 4-jet events.
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