Mass spectra in N=1\, SU(Nc) SQCD with NF=Nc and problems with S-confinement

Abstract

The low energy mass spectra of the direct SU(Nc), \,NF=Nc \, N=1 SQCD theory and its N.Seiberg's dual variant [1], are calculated in sections 2 and 3. It is shown that these two mass spectra are parametrically different, both for equal or unequal small quark masses mQ,i≠ 0. In [17] the very special non-SUSY lattice SU(Nc) QCD theory with NF=Nc scalar defective "quarks" was considered by E.Fradkin and S.H.Shenker. The conclusion of [17] was that the transition between the confinement and higgs regimes in this theory is the analytic crossover, not the non-analytic phase transition. And although the theory considered in [17] was very specific, the experience shows that up to now there is a widely spread opinion that this conclusion has general applicability. This model used in [17] is criticized in section 5 of this paper as incompatible with and qualitatively different from the standard non-SUSY SU(Nc) NF=Nc QCD theory with standard scalar quarks φiβ with all their 2N2F real degrees of freedom. It is emphasized that this model [17] is really the Stuckelberg SU(Nc) YM-theory with no dynamical electric quarks and with massive all Nc2-1 electric gluons with fixed by hands nonzero masses. There is no genuine confinement in this theory, it stays permanently in the completely higgsed phase only. And this is a reason for a crossover in this theory. While in the theory with standard scalar quarks there is the phase transition between the confinement and higgs phases. Besides, in section 5, the arguments presented in [2] by K.Intriligator and N.Seiberg for the standard direct SU(Nc), NF=Nc \, N=1 SQCD in support of the crossover from [17] are criticized as erroneous. Besides, in section 5 a qualitative mechanism of confinement in our ordinary (i.e. not SUSY) QCD is proposed.