Toward a standard model 2, via Kaluza ansatz 2

Abstract

New results and perspectives precipitate from the (modified as) Kaluza ansatz 2 (KA2), whereby, instead of appending n Planck-scale ( Lo) compact SL dimensions to ordinary 4D spacetime, one augments n such dimensions by 3 large ones. By KA2, the fundamental role of gravity in the dynamics of vacuum geometry is being conceded to the remaining fundamental interactions. The ground state in KA2 is of the form Mn+4= Cn+1×3, where the static (averaged-out over scales L>> Lo) Cn+1 carries effective torsion as relic of the deeper vacuum dynamics at Planck scale. For the simplest non-trivial implementation of KA2, the Bianchi IX subclass of SU(2)-invariant B4 IX provides the C5= B4 M× S1, with the S1 coming from 'augmentability', a complement to compactification. The classical action involves (i) the gravitational and EW sectors in elegant hierarchy, (ii) the higgsless emergence and full calculability of the EW gauge bosons masses and (iii) gravity as a necessarily effective field, hence non-quantizable. A conjectured Cn+1 with n≤ 7 (to adjoin the strong interaction) toward a standard model 2, might also offer novel perspectives for supergravity.