Articles scientifiques d'intérêt
Nous pouvons répertorier sur cette page les articles scientifiques en lien (même ténus) avec l'affaire Ummo et qui nous permettent de mieux comprendre les affirmations Oummaines
"ItsBS_YouTube"
Vidéo tout à fait passionnante sur le sujet par "ItsBS_YouTube" : https://www.youtube.com/watch?v=ALbw-N9lE8U
Michael Sarrazin
https://browse.arxiv.org/abs/2307.10637
Violation of C/CP Symmetry Induced by a Scalar Field Emerging from a Two-Brane Universe: A Gateway to Baryogenesis and Dark Matter
Michael Sarrazin, Coraline Stasser
A model of baryogenesis is introduced where our usual visible Universe is a 3-brane coevolving with a hidden 3-brane in a multidimensional bulk. The visible matter and antimatter sectors are naturally coupled with the hidden matter and antimatter sectors, breaking the C/CP invariance and leading to baryogenesis occurring after the quark-gluon era. The issue of leptogenesis is also discussed. The symmetry breaking spontaneously occurs in relation to the presence of an extra scalar field supported by the U(1)⊗U(1) gauge group, which extends the conventional electromagnetic gauge field in the two-brane universe. Scalar waves also emerge as potential dark matter candidates and a means of constraining the model.
https://browse.arxiv.org/abs/2307.10637
Violation of C/CP Symmetry Induced by a Scalar Field Emerging from a Two-Brane Universe: A Gateway to Baryogenesis and Dark Matter Michael Sarrazin, Coraline Stasser A model of baryogenesis is introduced where our usual visible Universe is a 3-brane coevolving with a hidden 3-brane in a multidimensional bulk. The visible matter and antimatter sectors are naturally coupled with the hidden matter and antimatter sectors, breaking the C/CP invariance and leading to baryogenesis occurring after the quark-gluon era. The issue of leptogenesis is also discussed. The symmetry breaking spontaneously occurs in relation to the presence of an extra scalar field supported by the U(1)⊗U(1) gauge group, which extends the conventional electromagnetic gauge field in the two-brane universe. Scalar waves also emerge as potential dark matter candidates and a means of constraining the model.