Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8192353 | Physics Letters B | 2011 | 11 Pages |
Abstract
Using an improved “analytic K-matrix model”, we reconsider the extraction of the Ïâ¡f0(600) and f0(980)γγ widths from γγâÏÏ scatterings data of Crystal Ball and Belle. Our main results are summarized in Tables 3 and 4. The averaged Ï “direct width” to γγ is 0.16(3) keV which confirms a previous result of Mennessier et al. (2007, 2008) [1] and which does neither favour a large four-quark/molecule nor a pure q¯q components. The “direct width” of the f0(980) of 0.28(2) keV is much larger than the four-quark expectation but can be compatible with a s¯s or a gluonium component. We also found that the rescattering part of each amplitude is relatively large indicating an important contribution of the meson loops in the determinations of the Ï and f0(980)γγ total widths. This is mainly due to the large couplings of the Ï and f0(980) to ÏÏ and/or K¯K, which can also be due to a light scalar gluonium with large OZI violating couplings but not necessary to a four-quark or molecule state. Our average results for the total (direct + rescattering) γγ widths: ÎÏtot=3.08(82) keV, Îf0tot=0.16(1) keV are comparable with the ones from dispersion relations and PDG values. Using the parameters from QCD spectral sum rules, we complete our analysis by showing that the production rates of unmixed scalar gluonia ÏB(1) and G(1.5-1.6) agree with the data from J/Ï, Ï radiative and Ds semi-leptonic decays.
Related Topics
Physical Sciences and Engineering
Physics and Astronomy
Nuclear and High Energy Physics
Authors
G. Mennessier, S. Narison, X.-G. Wang,