Slope of the topological charge, proton spin and 0-+ pseudoscalar di-gluonia spectra

Abstract

We discuss the topics mentioned in the title by scrutinizing and improving the 0-+ di-gluonia sum rules within the standard SVZ-expansion at N2LO without instantons. First, we reconsider the estimate of the slope of the topological charge '(0)=24.3(3.4) MeV which imply 0.144(5) [ data: 0.145(13)] for the first moment of the polarized proton structure function (proton spin) and GA(0) = 0.337(50) [ data=0.330(39)] for the singlet form factor of the axial current. Second, we work with high degree moments and parametrize the spectral function beyond the minimal duality ansatz: "One resonance plus QCD continuum" to get the 0-+ di-gluonia spectra. Then, we obtain three groups of gluonia: The familiar light η1 [singlet gluon component of the η'(958)] with [Mη1,fη1]= [825 , 905(72)]; The two new medium gluonia with MP1a=1338(112) MeV and [MP1b=1462(117) MeV or their mean [MP1,fP1]=[1397(81),594(144)] MeV which support the gluonium nature of the candidate η(1405) and may bring a small gluon piece to the η(1295); Their 1st radial excitations: MP'1a=1508(226) MeV and MP'1b=1553(139) MeV with their mean: [MP'1,fP'1]=[1541(118),205(282)] MeV which may be identified (up to some eventual mixings with qq states) with the η(1475,1700) states; The heavy gluonium with : [MP2, fP2]=[2751(140),500(43)] MeV comparable with the lattice results. One can remark the (natural) one to one correspondence between the pseudoscalar gluonia and their chiral scalar analogue from Ref.1: σ(1) η1;~G1(1.55) P1; [σ'(1.1),G'(1.56)] P'1a,1b;~G2(3) P2 which is mainly due to the importance of QCD PT in the sum rule analysis that are almost equal in these two channels. Results for the spectra are in Table 2.