Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2001-10-27
AIP Conf.Proc. 619 (2002) 187-196
Physics
High Energy Physics
High Energy Physics - Phenomenology
proc. of "Hadron '01," Protvino, Russia, Aug, 2001. 10 pages, uses ptptex.sty
Scientific paper
10.1063/1.1482448
Starting from the multi-local Klein-Gordon equations with Lorentz-scalar squared-mass operator we give a covariant quark representation of the general composite mesons and baryons with definite Lorentz transformation property. The mass spectra satisfy the approximate symmetry under the tilde U(4) transformation group, including the chiral transformation as a subgroup, concerning the spinor freedom of light constituent quarks, and this symmetry predicts the existence of new type of chiral mesons and baryons out of the conventional framework in non-relativistic quark model: For example, for light qqbar systems, the scalar sigma- and axial-vector a_1-nonets, and for heavy-light Qqbar and qQbar systems the scalar and axial-vector mesons are predicted to exist as relativistic S-wave states besides the ordinary P-wave state mesons. The existence of two ``exotic'' 1^-+ meson nonets is predicted as the relativistic P-wave states in qqbar systems. For light quark baryons the extra 56 with positive parity and the extra 70 with negative parity of the static SU(6) are predicted to exist as the ground state chiral particles.
Ishida Muneyuki
Ishida Shin
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