A Heuristic Dual to the Particles in the Standard Model Creating Composite Self-interacting Dark Matter

A heuristic Dual to the Standard Model (SM) particles is proposed, by step-by-step considering the quantum numbers of a Dual to make the forces between SM and Dual composite particles weak or vanishing, preserving very weak linkages to the SM, yielding a spectrum of self-interacting composite dark matter from the early epoch, and which stabilizes the Higgs. The Dual to fermion quarks, leptons and gauge bosons are right-handed, and charged or neutral scalar magnetic monopoles of charges ±2 ±3 ±6 g=e/alpha. Chromoelectric changes to chromomagnetic charges of the dual scalar quarks and spinor gluons. Flavor changing weak charge current interactions are forbidden: -6g cannot change to +3g. Strongly coupled e-m magnetic confinement and inner-brems enables SM production of stable bound flavored neutral “smesons, sbaryons, di-sleptons”, like the dressing of quarks to composite particles, requiring low-mass monopoles. Photons emitted from electric charge couple as beta-g to monopoles and those emitted from monopoles couple as beta-e to electric poles. Experiment & cosmic data with monopolium as dark matter is presented. Methods of detecting stable flavored monopoliums are described. Portals between the dual sectors and self-interactions, constraints and consequences are discussed. The heuristic Dual presented here points towards a dual being a larger dark fraction of the universe than the SM and self-interacting. This toy Dual disregards gauge invariance or a symmetry group needed for a proper Lagrangian.