Affiliation:
1. Milwaukee School of Engineering
Abstract
Abstract
The formation of mini black holes is now considered to be an inescapable consequence of TeV scale particle collision scenarios in extra-dimensional/ADD models. Furthermore, such mini black holes have been predicted to be produced at prodigious rates of several thousand per year. Therefore, the continued null results from detector searches so far, including the most recent LHC runs of \(\sqrt{s}\) = 14 TeV, seem to suggest that new ideas may be critical for further advances in high-energy physics. In this manuscript, we use a geometrical algorithm, inspired by GR, in particular Kerr-Newman de-Sitter black holes, to explore the nonperturbative (infrared) sector of QCD. This has led us to a novel and more refined search criteria for LHC data compared to previous methods. We also explain why the current search yielded null results. Our predictions are readily testable at detector sites. More importantly, our approach provides promising solutions to several long-standing problems, such as quark confinement.
Publisher
Research Square Platform LLC
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