A Conjecture: No Dark Matter will be discovered at LHC, or elsewhere
Stéphane Maes
Abstract
<em>CERN restarted the upgraded Large Hadron Collider (LHC), third run, with among its objectives the hope to detect “Dark Matter”. </em> <em> </em> <em>With this paper, based on the multi-fold theory, and its encounter in General Relativity (GR) and Yang Mills theory, we apply the Occam’s razor principle to expect that no dark matter, including axions, will the detected at LHC or elsewhere, just as we also predicted that no supersymmetric partners will ever be encountered. The Multi-fold-derived Ultimate Unification (UU) furthers hints at no other fundamental particle above the (gravity) electroweak symmetry breaking energy scale, unless if UU had its own particles, something not likely, or if new and unknown interactions, non-supersymmetric, were to exist. The latter is something that may not be that likely either, especially as we have separately argued that the multi-fold theory predicts the Standard Model (SM) symmetries and can be seen as a quasi TOE that predicts most of its properties. Of course, these predictions do not include the massless Higgs boson, the particle responsible for the random walk, and spacetime location concretization.</em> <em> </em> <em>Interestingly, the paper also provides a random walk explanation for the absence of supersymmetry in a universe with a positive cosmological constant 4D , or lower dimensions, spacetime, while they exist at higher dimensions.</em>